Method and system for characterizing microorganism-associated sleep-related conditions

ABSTRACT

Embodiments of a method and/or system for characterizing one or more sleep-related conditions can include determining a microorganism dataset associated with a set of subjects; and/or performing a characterization process associated with the one or more sleep-related conditions, based on the microorganism dataset, where performing the characterization process can additionally or alternatively include performing a sleep-related characterization process for the one or more sleep-related conditions, and/or determining one or more therapies S140.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. application Ser. No. 15/606,743, filed 26 May 2017, which is a continuation of U.S. application Ser. No. 14/919,614, filed 21 Oct. 2017, which claims the benefit of U.S. Provisional Application Ser. No. 62/066,369 filed 21 Oct. 2014, U.S. Provisional Application Ser. No. 62/087,551 filed 4 Dec. 2014, U.S. Provisional Application Ser. No. 62/092,999 filed 17 Dec. 2014, U.S. Provisional Application Ser. No. 62/147,376 filed 14 Apr. 2015, U.S. Provisional Application Ser. No. 62/147,212 filed 14 Apr. 2015, U.S. Provisional Application Ser. No. 62/147,362 filed 14 Apr. 2015, U.S. Provisional Application Ser. No. 62/146,855 filed 13 Apr. 2015, and U.S. Provisional Application Ser. No. 62/206,654 filed 18 Aug. 2015, which are each incorporated in its entirety herein by this reference.

This application additionally claims the benefit of U.S. Provisional Application Ser. No. 62/514,356 filed 2 Jun. 2017 and U.S. Provisional Application Ser. No. 62/515,396 filed 5 Jun. 2017, which are each herein incorporated in their entirety by this reference.

TECHNICAL FIELD

The disclosure generally relates to genomics and microbiology.

BACKGROUND

A microbiome can include an ecological community of commensal, symbiotic, and pathogenic microorganisms that are associated with an organism. Characterization of the human microbiome is a complex process. The human microbiome includes over 10 times more microbial cells than human cells, but characterization of the human microbiome is still in nascent stages such as due to limitations in sample processing techniques, genetic analysis techniques, and resources for processing large amounts of data. Present knowledge has clearly established the role of microbiome associations with multiple health conditions, and has become an increasingly appreciated mediator of host genetic and environmental factors on human disease development. The microbiome is suspected to play at least a partial role in a number of health/disease-related states. Further, the microbiome may mediate effects of environmental factors on human, plant, and/or animal health. Given the profound implications of the microbiome in affecting a user's health, efforts related to the characterization of the microbiome, the generation of insights from the characterization, and the generation of therapeutics configured to rectify states of dysbiosis should be pursued. Methods and systems for analyzing the microbiomes of humans and/or providing therapeutic measures based on gained insights have, however, left many questions unanswered.

As such, there is a need in the field of microbiology for a new and useful method and/or system for characterizing, monitoring, diagnosing, and/or intervening in one or more microorganism-related health conditions, such as for individualized and/or population-wide use.

BRIEF DESCRIPTION OF THE FIGURES

FIGS. 1A-1B show a flowchart representation of variations of an embodiment of a method;

FIG. 2 depicts embodiments of a method and system;

FIG. 3 depicts a variation of a process for generation of a characterization model in an embodiment of a method;

FIG. 4 depicts variations of mechanisms by which probiotic-based therapies operate in an embodiment of a method;

FIG. 5 depicts variations of sample processing in an embodiment of a method;

FIG. 6 depicts examples of notification provision;

FIG. 7 depicts a schematic representation of variations of an embodiment of the method;

FIGS. 8A-8C depicts variations of performing characterization processes with models;

FIG. 9 depicts promoting a therapy in an embodiment of a method.

DESCRIPTION OF THE EMBODIMENTS

The following description of the embodiments is not intended to limit the embodiments, but rather to enable any person skilled in the art to make and use.

1. Overview

As shown in FIGS. 1A-1B, embodiments of a method 100 for characterizing one or more sleep-related conditions can include: determining a microorganism dataset (e.g., microorganism sequence dataset, microbiome composition diversity dataset such as based upon a microorganism sequence dataset, microbiome functional diversity dataset such as based upon a microorganism sequence dataset, etc.) associated with a set of subjects S110; and/or performing a characterization process (e.g., pre-processing, feature determination, feature processing, sleep-related characterization model processing, etc.) associated with the one or more sleep-related conditions, based on the microorganism dataset (e.g., based on microbiome composition features and/or microbiome functional features derived from the microorganism dataset and associated with the one or more sleep-related conditions; etc.) S130, where performing the characterization process can additionally or alternatively include performing a sleep-related characterization process for the one or more sleep-related conditions S135, and/or determining one or more therapies (e.g., determining therapies for preventing, ameliorating, reducing the risk of, and/or otherwise improving the one or more sleep-related conditions, etc.) S140.

Embodiments of the method 100 can additionally or alternatively include one or more of: processing supplementary data associated with (e.g., informative of; describing; indicative of; correlated with, etc.) one or more sleep-related conditions S120; processing one or more biological samples associated with a user (e.g., subject, human, animal, patient; etc.) S150; determining, with one or more characterization processes, a sleep-related characterization for the user for one or more sleep-related conditions, based on a user microorganism dataset (e.g., user microorganism sequence dataset; user microbiome composition dataset; user microbiome function dataset; user microbiome features derived from the user microorganism dataset, where the user microbiome features can correspond to feature values for the microbiome features determined from one or more characterization processes; etc.) associated with a biological sample of the user S160; facilitating therapeutic intervention for the one or more sleep-related conditions for the user (e.g., based upon the sleep-related characterization and/or a therapy model; etc.) S170; monitoring effectiveness of one or more therapies and/or monitoring other suitable components (e.g., microbiome characteristics, etc.) for the user (e.g., based upon processing a series of biological samples from the user), over time (e.g., such as to assess user microbiome characteristics such as user microbiome composition features and/or functional features associated with the therapy, for the user over time, etc.) S180; and/or any other suitable processes.

Embodiments of the method 100 and/or system 200 can function to characterize (e.g., assess, evaluate, diagnose, describe, etc.) one or more sleep-related conditions (e.g., characterizing the sleep-related conditions themselves, such as determining microbiome features correlated with and/or otherwise associated with the sleep-related conditions; characterizing one or more sleep-related conditions for one or more users, such as determining propensity metrics for the one or more sleep-related conditions for the one or more users; etc.). In an example, the method 100 can include: determining a microorganism dataset associated with a set of subjects (e.g., including subjects with one or more sleep-related conditions, subjects without the one or more sleep-related conditions, etc.), based on microorganism nucleic acids from biological samples associated with the set of subjects, where the microorganism nucleic acids are associated with one or more sleep-related conditions; processing (e.g., collecting, etc.), for the set of subjects, supplementary data associated with the one or more sleep-related conditions; determining microbiome features (e.g., at least one of a set of microbiome composition features and a set of microbiome functional features, etc.) associated with the set of subjects, based on the microorganism dataset (and/or the supplementary data and/or other suitable data); generating a sleep-related characterization model (e.g., for determining sleep-related characterizations; a therapy model; etc.) based on the supplementary data and the microbiome features, where the sleep-related characterization model is associated with the one or more sleep-related conditions; determining a sleep-related characterization for a user for the one or more sleep-related conditions based on the sleep-related characterization model; and facilitating therapeutic intervention (e.g., providing a therapy to the user, etc.) for facilitating improvement of the one or more sleep-related conditions, based on the sleep-related characterization. In another example, the method 100 can include: collecting a biological sample from a user (e.g., via sample kit provision and collection, etc.), where the biological sample includes microorganism nucleic acids associated with one or more sleep-related conditions; determining a microorganism dataset associated with the user based on the microorganism nucleic acids of the biological sample (e.g., based on sample preparation and/or sequencing with the biological sample, etc.); determining user microbiome features (e.g., including at least one of user microbiome composition features and user microbiome functional features, based on the microorganism dataset, etc.), where the user microbiome features are associated with the one or more sleep-related conditions; determining a sleep-related characterization for a user for the one or more sleep-related conditions based on the user microbiome features; and facilitating therapeutic intervention in relation to a therapy for the user for facilitating improvement of the one or more sleep-related conditions, based on the sleep-related characterization.

Additionally or alternatively, embodiments of the method 100 and/or system 200 can identify microbiome features and/or other suitable data associated with (e.g., positive correlated with, negatively correlated with, etc.) one or more sleep-related conditions, such as for use as biomarkers (e.g., for diagnostic processes, for treatment processes, etc.). In examples, sleep-related characterization can be associated with at least one or more of user microbiome composition (e.g., microbiome composition diversity, etc.), microbiome function (e.g., microbiome functional diversity, etc.), and/or other suitable microbiome-related aspects. In an example, microorganism features (e.g., describing composition, function, and/or diversity of recognizable patterns, such as in relation to relative abundance of microorganisms that are present in a subject's microbiome, such as for subjects exhibiting one or more sleep-related conditions; etc.) and/or microorganism datasets (e.g., from which microbiome features can be derived, etc.) can be used for diagnostics, characterizations, therapeutic intervention facilitation, monitoring, and/or other suitable purposes, such as by using bioinformatics pipelines, analytical techniques, and/or other suitable approaches described herein. Additionally or alternatively, embodiments of the method 100 and/or system 200 can function to perform cross-condition analyses for a plurality of sleep-related conditions (e.g., performing characterization processes for a plurality of sleep-related conditions, such as determining correlation, covariance, comorbidity, and/or other suitable relationships between different sleep-related conditions, etc.), such as in the context of characterizing, diagnosing, and/or treating a user.

Additionally or alternatively, embodiments can function to facilitate therapeutic intervention (e.g., therapy selection; therapy promotion and/or provision; therapy monitoring; therapy evaluation; etc.) for one or more sleep-related conditions, such as through promotion of associated therapies (e.g., in relation to specific physiological sites gut, skin, nose, mouth, genitals, other suitable physiological sites, other collection sites; therapies determined by therapy models; etc.). Additionally or alternatively, embodiments can function to generate models (e.g., sleep-related characterization models such as for phenotypic prediction; therapy models such as for therapy determination; machine learning models such as for feature processing, etc.), such as models that can be used to characterize and/or diagnose users based on their microbiome (e.g., user microbiome features; as a clinical diagnostic; as a companion diagnostic, etc.), and/or that can be used to select and/or provide therapies for subjects in relation to one or more sleep-related conditions. Additionally or alternatively, embodiments can perform any suitable functionality described herein.

As such, data from populations of subjects (e.g., associated with one or more sleep-related conditions; positively or negatively correlated with one or more sleep-related conditions; etc.) can be used to characterize subsequent users, such as for indicating microorganism-related states of health and/or areas of improvement, and/or to facilitate therapeutic intervention (e.g., promoting one or more therapies; facilitating modulation of the composition and/or functional diversity of a user's microbiome toward one or more of a set of desired equilibrium states, such as states correlated with improved health states associated with one or more sleep-related conditions; etc.), such as in relation to one or more sleep-related conditions. Variations of the method 100 can further facilitate selection, monitoring (e.g., efficacy monitoring, etc.) and/or adjusting of therapies provided to a user, such as through collection and analysis (e.g., with sleep-related characterization models) of additional samples from a subject over time (e.g., throughout the course of a therapy regimen, through the extent of a user's experiences with sleep-related conditions; etc.), across collection sites, in addition or alternative to processing supplementary data over time (e.g., sleep-tracking data, etc.), such as for one or more sleep-related conditions. However, data from populations, subgroups, individuals, and/or other suitable entities can be used by any suitable portions of the method 100 and/or system 200 for any suitable purpose.

Embodiments of the method 100 and/or system 200 can preferably determine and/or promote (e.g., provide; present; notify regarding; etc.) characterizations and/or therapies for one or more sleep-related conditions, and/or any suitable portions of the method 100 and/or system 200 can be performed in relation to sleep-related conditions. Sleep-related conditions can include any one or more of: insomnias (e.g., short sleeping, child insomnia, etc.), hypersomnias (e.g., narcolepsy, idiopathic hypersomnia, Kleine-Levin syndrome, insufficient sleep syndrome, long sleeping, idiopathic hypersomnia, etc.), sleep-related breathing disorders (e.g., sleep apnea, obstructive sleep apnea, snoring, central sleep apnea, child sleep apnea, infant sleep apnea, sleep-related groaning, catathrenia, hypopnea syndrome, etc.), circadian rhythm-related sleep disorders (e.g., delayed sleep-wake phase, advanced sleep-wake phase, irregular sleep-wake rhythm, non-24-hour sleep-wake rhythm, shift work sleep disorders, jet lag, etc.), parasomnias (e.g., sleepwalking, confusional arousals, sleep terrors, sleep eating disorders, REM sleep behavior disorders, sleep paralysis, nightmares, bedwetting, hallucinations, exploding head syndrome, sleep talking, etc.), sleep-related movement disorders (e.g., periodic limb movements, sleep leg cramps, sleep rhythmic movement, bruxism, restless legs syndrome, etc.), dyssomnias, sleeping sickness, nocturia, somniphobia, abnormal sleep behavior disorders, daytime sleepiness disorders, comorbid conditions, and/or any other suitable conditions associated with sleep.

Additionally or alternatively, sleep-related conditions can include one or more of: diseases, symptoms, causes (e.g., triggers, etc.), disorders, associated risk (e.g., propensity scores, etc.), associated severity, behaviors (e.g., physical activity behavior; alcohol consumption; smoking behaviors; stress-related characteristics; other psychological characteristics; sickness; social behaviors; caffeine consumption; alcohol consumption; sleep habits such as sleep time, wake time, naps, length, quality, sleep phases, consistence, variance and/or other sleep behaviors; other habits; diet-related behaviors; meditation and/or other relaxation behaviors; lifestyle conditions associated with sleep-related conditions; lifestyle conditions affecting sleep quality; lifestyle conditions informative of, correlated with, indicative of, facilitative of, and/or otherwise associated with diagnosis and/or therapeutic intervention for sleep-related conditions; behaviors affecting and/or otherwise associated with sleep and/or sleep-related conditions; etc.), environmental factors (e.g., location of sleep; bed, mattress, pillow, blanket, and/or other bedding and/or sleeping environment factors; lighting; other visual factors; noise; other audio factors; touch factors; etc.), demographic-related characteristics (e.g., age, weight, race, gender, etc.), phenotypes (e.g., phenotypes measurable for a human, animal, plant, fungi body; phenotypes associated with sleep and/or other related aspects, etc.), and/or any other suitable aspects associated with sleep-related conditions. In examples, one or more sleep-related conditions can include a medical disorder affecting the sleep patterns of a human, animal, and/or other suitable entity. In an example, one or more sleep-related conditions can interfere with normal physical, mental, social and/or emotional function. In an example, one or more sleep-related conditions can be characterized by and/or diagnosed by medical interview, medical history, survey, sensor data, medical exams, data activities including and/or requiring monitoring individuals as they sleep, other supplementary data, and/or through any suitable techniques (e.g., techniques available for diagnosis for sleep-related conditions, etc.).

Embodiments of the method 100 and/or system 200 can be implemented for a single user, such as in relation to applying one or more sample handling processes and/or characterization processes for processing one or more biological samples (e.g., collected across one or more collection sites, etc.) from the user, for sleep-related characterization, facilitating therapeutic intervention, and/or for any other suitable purpose. Additionally or alternatively, embodiments can be implemented for a population of subjects (e.g., including the user, excluding the user), where the population of subjects can include subjects similar to and/or dissimilar to any other subjects for any suitable type of characteristics (e.g., in relation to sleep-related conditions, demographic characteristics, behaviors, microbiome composition and/or function, etc.); implemented for a subgroup of users (e.g., sharing characteristics, such as characteristics affecting sleep-related characterization and/or therapy determination; etc.); implemented for plants, animals, microorganisms, and/or any other suitable entities. Thus, information derived from a set of subjects (e.g., population of subjects, set of subjects, subgroup of users, etc.) can be used to provide additional insight for subsequent users. In a variation, an aggregate set of biological samples is preferably associated with and processed for a wide variety of subjects, such as including subjects of one or more of: different demographic characteristics (e.g., genders, ages, marital statuses, ethnicities, nationalities, socioeconomic statuses, sexual orientations, etc.), different sleep-related conditions (e.g., health and disease states; different genetic dispositions; etc.), different living situations (e.g., living alone, living with pets, living with a significant other, living with children, etc.), different dietary habits (e.g., omnivorous, vegetarian, vegan, sugar consumption, acid consumption, caffeine consumption, etc.), different behavioral tendencies (e.g., levels of physical activity, drug use, alcohol use, etc.), different levels of mobility (e.g., related to distance traveled within a given time period), and/or any other suitable characteristic (e.g., characteristics influencing, correlated with, and/or otherwise associated with microbiome composition and/or function, etc.). In examples, as the number of subjects increases, the predictive power of processes implemented in portions of the method 100 and/or system 200 can increase, such as in relation to characterizing subsequent users (e.g., with varying characteristics, etc.) based upon their microbiomes (e.g., in relation to different collection sites for samples for the users, etc.). However, portions of the method 100 and/or system 200 can be performed and/or configured in any suitable manner for any suitable entity or entities.

Data described herein (e.g., microbiome features, microorganism datasets, models, sleep-related characterizations, supplementary data, notifications, etc.) can be associated with any suitable temporal indicators (e.g., seconds, minutes, hours, days, weeks, etc.) including one or more: temporal indicators indicating when the data was collected (e.g., temporal indicators indicating when a sample was collected; etc.), determined, transmitted, received, and/or otherwise processed; temporal indicators providing context to content described by the data (e.g., temporal indicators associated with sleep-related characterizations, such as where the sleep-related characterization describes the sleep-related conditions and/or user microbiome status at a particular time; etc.); changes in temporal indicators (e.g., changes in sleep-related characterizations over time, such as in response to receiving a therapy; latency between sample collection, sample analysis, provision of a sleep-related characterization or therapy to a user, and/or other suitable portions of the method 100; etc.); and/or any other suitable indicators related to time.

Additionally or alternatively, parameters, metrics, inputs, outputs, and/or other suitable data can be associated with value types including: scores (e.g., sleep-related condition propensity scores; feature relevance scores; correlation scores, covariance scores, microbiome diversity scores, severity scores; etc.), individual values (e.g., individual sleep-related condition scores, such as condition propensity scores, for different collection sites, etc.), aggregate values, (e.g., overall scores based on individual microorganism-related scores for different collection sites, etc.), binary values (e.g., presence or absence of a microbiome feature; presence or absence of a sleep-related condition; etc.), relative values (e.g., relative taxonomic group abundance, relative microbiome function abundance, relative feature abundance, etc.), classifications (e.g., sleep-related condition classifications and/or diagnoses for users; feature classifications; behavior classifications; demographic characteristic classifications; etc.), confidence levels (e.g., associated with microorganism sequence datasets; with microbiome diversity scores; with other sleep-related characterizations; with other outputs; etc.), identifiers, values along a spectrum, and/or any other suitable types of values. Any suitable types of data described herein can be used as inputs (e.g., for different analytical techniques, models, and/or other suitable components described herein), generated as outputs (e.g., of different analytical techniques, models, etc.), and/or manipulated in any suitable manner for any suitable components associated with the method 100 and/or system 200.

One or more instances and/or portions of the method 100 and/or processes described herein can be performed asynchronously (e.g., sequentially), concurrently (e.g., parallel data processing; concurrent cross-condition analysis; multiplex sample processing, such as multiplex amplification of microorganism nucleic acid fragments corresponding to target sequences associated with sleep-related conditions; performing sample processing and analysis for substantially concurrently evaluating a panel of sleep-related conditions; computationally determining microorganism datasets, microbiome features, and/or characterizing sleep-related conditions in parallel for a plurality of users; such as concurrently on different threads for parallel computing to improve system processing ability; etc.), in temporal relation (e.g., substantially concurrently with, in response to, serially, prior to, subsequent to, etc.) to a trigger event (e.g., performance of a portion of the method 100), and/or in any other suitable order at any suitable time and frequency by and/or using one or more instances of the system 200, components, and/or entities described herein. In an example, the method 100 can include generating a microorganism dataset based on processing microorganism nucleic acids of one or more biological samples with a bridge amplification substrate of a next generation sequencing platform (and/or other suitable sequencing system) of a sample handling system, and determining microbiome features and microbiome functional diversity features at computing devices operable to communicate with the next generation sequencing platform. However, the method 100 and/or system 200 can be configured in any suitable manner.

2. Benefits.

Microbiome analysis can enable accurate and/or efficient characterization and/or therapy provision (e.g., according to portions of the method 100, etc.) for sleep-related conditions caused by, correlated with, and/or otherwise associated with microorganisms. Specific examples of the technology can overcome several challenges faced by conventional approaches in characterizing a sleep-related conditions and/or facilitating therapeutic intervention. First, conventional approaches can require patients to visit one or more care providers to receive a characterization and/or a therapy recommendation for a sleep-related condition (e.g., through diagnostic medical procedures such as in-hospital sleep-tracking; etc.), which can amount to inefficiencies and/or health-risks associated with the amount of time elapsed before diagnosis and/or treatment, with inconsistency in healthcare quality, and/or with other aspects of care provider visitation. Second, conventional genetic sequencing and analysis technologies for human genome sequencing can be incompatible and/or inefficient when applied to the microbiome (e.g., where the human microbiome can include over 10 times more microbial cells than human cells; where viable analytical techniques and the means of leveraging the analytical techniques can differ; where optimal sample processing techniques can differ, such as for reducing amplification bias; where different approaches to sleep-related characterizations can be employed; where the types of conditions and correlations can differ; where causes of the associated conditions and/or viable therapies for the associated conditions can differ; where sequence reference databases can differ; where the microbiome can vary across different body regions of the user such as at different collection sites; etc.). Third, the onset of sequencing technologies (e.g., next-generation sequencing, associated technologies, etc.) has given rise to technological issues (e.g., data processing and analysis issues for the plethora of generated sequence data; issues with processing a plurality of biological samples in a multiplex manner; information display issues; therapy prediction issues; therapy provision issues, etc.) that would not exist but for the unprecedented advances in speed and data generation associated with sequencing genetic material. Specific examples of the method 100 and/or system 200 can confer technologically-rooted solutions to at least the challenges described above.

First, specific examples of the technology can transform entities (e.g., users, biological samples, therapy facilitation systems including medical devices, etc.) into different states or things. For example, the technology can transform a biological sample into components able to be sequenced and analyzed to generate microorganism dataset and/or microbiome features usable for characterizing users in relation to one or more sleep-related conditions (e.g., such as through use of next-generation sequencing systems, multiplex amplification operations; etc.). In another example, the technology can identify, promote (e.g., present, recommend, etc.), discourage, and/or provide therapies (e.g., personalized therapies based on a sleep-related characterization; etc.) and/or otherwise facilitate therapeutic intervention (e.g., facilitating modification of a user's microbiome composition, microbiome functionality, etc.), which can prevent and/or ameliorate one or more sleep-related conditions, thereby transforming the microbiome and/or health of the patient (e.g., improving a health state associated with a sleep-related condition; etc.). In another example, the technology can transform microbiome composition and/or function at one or more different physiological sites of a user (e.g., one or more different collection sites, etc.), such as targeting and/or transforming microorganisms associated with a gut, nose, skin, mouth, and/or genitals microbiome. In another example, the technology can control therapy facilitation systems (e.g., dietary systems; automated medication dispensers; behavior modification systems; diagnostic systems; disease therapy facilitation systems; etc.) to promote therapies (e.g., by generating control instructions for the therapy facilitation system to execute; etc.), thereby transforming the therapy facilitation system.

Second, specific examples of the technology can confer improvements in computer-related technology (e.g., improving computational efficiency in storing, retrieving, and/or processing microorganism-related data for sleep-related conditions; computational processing associated with biological sample processing, etc.) such as by facilitating computer performance of functions not previously performable. For example, the technology can apply a set of analytical techniques in a non-generic manner to non-generic microorganism datasets and/or microbiome features (e.g., that are recently able to be generated and/or are viable due to advances in sample processing techniques and/or sequencing technology, etc.) for improving sleep-related characterizations and/or facilitating therapeutic intervention for sleep-related conditions.

Third, specific examples of the technology can confer improvements in processing speed, sleep-related characterization, accuracy, microbiome-related therapy determination and promotion, and/or other suitable aspects in relation to sleep-related conditions. For example, the technology can leverage non-generic microorganism datasets to determine, select, and/or otherwise process microbiome features of particular relevance to one or more sleep-related conditions (e.g., processed microbiome features relevant to a sleep-related condition; cross-condition microbiome features with relevance to a plurality of sleep-related conditions, etc.), which can facilitate improvements in accuracy (e.g., by using the most relevant microbiome features; by leveraging tailored analytical techniques; etc.), processing speed (e.g., by selecting a subset of relevant microbiome features; by performing dimensionality reduction techniques; by leveraging tailored analytical techniques; etc.), and/or other computational improvements in relation to phenotypic prediction (e.g., indications of the sleep-related conditions, etc.), other suitable characterizations, therapeutic intervention facilitation, and/or other suitable purposes. In a specific example, the technology can apply feature-selection rules (e.g., microbiome feature-selection rules for composition, function; for supplemental features extracted from supplementary datasets; etc.) to select an optimized subset of features (e.g., microbiome functional features relevant to one or more sleep-related conditions; microbiome composition diversity features such as reference relative abundance features indicative of healthy, presence, absence, and/or other suitable ranges of taxonomic groups associated with sleep-related conditions; user relative abundance features that can be compared to reference relative abundance features correlated with sleep-related conditions and/or therapy responses; etc.) out of a vast potential pool of features (e.g., extractable from the plethora of microbiome data such as sequence data; identifiable by univariate statistical tests; etc.) for generating, applying, and/or otherwise facilitating characterization and/or therapies (e.g., through models, etc.). The potential size of microbiomes (e.g., human microbiomes, animal microbiomes, etc.) can translate into a plethora of data, giving rise to questions of how to process and analyze the vast array of data to generate actionable microbiome insights in relation to sleep-related conditions. However, the feature-selection rules and/or other suitable computer-implementable rules can enable one or more of: shorter generation and execution times (e.g., for generating and/or applying models; for determining sleep-related characterizations and/or associated therapies; etc.); optimized sample processing techniques (e.g., improving transformation of microorganism nucleic acids from biological samples through using primer types, other biomolecules, and/or other sample processing components identified through computational analysis of taxonomic groups, sequences, and/or other suitable data associated with sleep-related conditions, such as while optimizing for improving specificity, reducing amplification bias, and/or other suitable parameters; etc.); model simplification facilitating efficient interpretation of results; reduction in overfitting; network effects associated with generating, storing, and applying sleep-related characterizations for a plurality of users over time in relation to sleep-related conditions (e.g., through collecting and processing an increasing amount of microbiome-related data associated with an increasing number of users to improve predictive power of the sleep-related characterizations and/or therapy determinations; etc.); improvements in data storage and retrieval (e.g., storing and/or retrieving sleep-related characterization models; storing specific models such as in association with different users and/or sets of users, with different sleep-related conditions; storing microorganism datasets in association with user accounts; storing therapy monitoring data in association with one or more therapies and/or users receiving the therapies; storing features, sleep-related characterizations, and/or other suitable data in association with a user, set of users, and/or other entities to improve delivery of personalized characterizations and/or treatments for the sleep-related conditions, etc.), and/or other suitable improvements to technological areas.

Fourth, specific examples of the technology can amount to an inventive distribution of functionality across a network including a sample handling system, a sleep-related characterization system, and a plurality of users, where the sample handling system can handle substantially concurrent processing of biological samples (e.g., in a multiplex manner) from the plurality of users, which can be leveraged by the sleep-related characterization system in generating personalized characterizations and/or therapies (e.g., customized to the user's microbiome such as in relation to the user's dietary behavior, probiotics-associated behavior, medical history, demographic characteristics, other behaviors, preferences, etc.) for sleep-related conditions.

Fifth, specific examples of the technology can improve the technical fields of at least genomics, microbiology, microbiome-related computation, diagnostics, therapeutics, microbiome-related digital medicine, digital medicine generally, modeling, and/or other relevant fields. In an example, the technology can model and/or characterize different sleep-related conditions, such as through computational identification of relevant microorganism features (e.g., which can act as biomarkers to be used in diagnoses, facilitating therapeutic intervention, etc.) for sleep-related conditions. In another example, the technology can perform cross-condition analysis to identify and evaluate cross-condition microbiome features associated with (e.g., shared across, correlated across, etc.) a plurality of a sleep-related conditions (e.g., diseases, phenotypes, etc.). Such identification and characterization of microbiome features can facilitate improved health care practices (e.g., at the population and individual level, such as by facilitating diagnosis and therapeutic intervention, etc.), by reducing risk and prevalence of comorbid and/or multi-morbid sleep-related conditions (e.g., which can be associated with environmental factors, and thereby associated with the microbiome, etc.).

Sixth, the technology can leverage specialized computing devices (e.g., devices associated with the sample handling system, such as next-generation sequencing systems; sleep-related characterization systems; therapy facilitation systems; etc.) in performing suitable portions associated with the method 100 and/or system 200.

Specific examples of the technology can, however, provide any other suitable benefit(s) in the context of using non-generalized computer systems for sleep-related characterization, microbiome modulation, and/or for performing other suitable portions of the method 100.

3. System.

As shown in FIG. 2, embodiments of the system 200 (e.g., for characterizing a sleep-related condition) can include any one or more of: a handling system (e.g., a sample handling system, etc.) 210 operable to collect and/or process biological samples (e.g., collected by users and included in containers including pre-processing reagents; etc.) from one or more users (e.g., a human subject, patient, animal subject, environmental ecosystem, care provider, etc.) for facilitating determination of a microorganism dataset (e.g., microorganism genetic sequences; microorganism sequence dataset; etc.); a sleep-related characterization system 220 operable to determine user microbiome features (e.g., microbiome composition features; microbiome functional features; diversity features; relative abundance ranges; such as based on a microorganism dataset and/or other suitable data; etc.), determine sleep-related characterizations (e.g., sleep-related condition characterizations, therapy-related characterizations, characterizations for users, etc.); and/or a therapy facilitation system 230 operable to facilitate therapeutic intervention (e.g., promote a therapy, etc.) for one or more sleep-related conditions (e.g., based on one or more sleep-related conditions; for improving one or more sleep-related conditions; etc.).

The handling system 210 of the system 200 can function to receive and/or process (e.g., fragment, amplify, sequence, generate associated datasets, etc.) biological samples to transform microorganism nucleic acids and/or other components of the biological samples into data (e.g., genetic sequences that can be subsequently aligned and analyzed; microorganism datasets; etc.) for facilitating generation of sleep-related characterizations and/or therapeutic intervention. The handling system 210 can additionally or alternatively function to provide sample kits 250 (e.g., including sample containers, instructions for collecting samples from one or more collection sites, etc.) to a plurality of users (e.g., in response to a purchase order for a sample kit 250), such as through a mail delivery system. The handling system 210 can include one or more sequencing systems 215 (e.g., a next-generation sequencing systems, sequencing systems for targeted amplicon sequencing, metatranscriptomic sequencing, metagenomic sequencing, sequencing-by-synthesis techniques, capillary sequencing technique, Sanger sequencing, pyrosequencing techniques, nanopore sequencing techniques, etc.) for sequencing one or more biological samples (e.g., sequencing microorganism nucleic acids from the biological samples, etc.), such as in generating microorganism data (e.g., microorganism sequence data, other data for microorganism datasets, etc.). The handling system 210 can additionally or alternatively include a library preparation system operable to automatically prepare biological samples (e.g., fragment and amplify using primers compatible with genetic targets associated with the sleep-related condition) in a multiplex manner to be sequenced by a sequencing system; and/or any suitable components. The handling system can perform any suitable sample processing techniques described herein. However, the handling system 210 and associated components can be configured in any suitable manner.

The sleep-related characterization system 220 of the system 200 can function to determine, analyze, characterize, and/or otherwise process microorganism datasets (e.g., based on processed biological samples leading to microorganism genetic sequences; alignments to reference sequences; etc.), microbiome features (e.g., individual variables; groups of variables; features relevant for phenotypic prediction, for statistical description; variables associated with a sample obtained from an individual; variables associated with sleep-related conditions; variables describing fully or partially, in relative or absolute quantities the sample's microbiome composition and/or functionality; etc.), models, and/or other suitable data for facilitating sleep-related characterization and/or therapeutic intervention. In examples, the sleep-related characterization system 220 can identify data associated with the information of the features that statistically describe the differences between samples associated with one or more sleep-related conditions (e.g., samples associated with presence, absence, risk of, propensity for, and/or other aspects related to sleep-related conditions etc.), such as where the differing analyses can provide complementing views into the features differentiating the different samples (e.g., differentiating the subgroups associated with presence or absence of a condition, etc.). In a specific example, individual predictors, a specific biological process, and/or statistically inferred latent variables can provide complementary information at different levels of data complexity to facilitate varied downstream opportunities in relation to characterization, diagnosis, and/or treatment. In another specific example, the sleep-related characterization system 220 process supplementary data for performing one or more characterization processes.

The sleep-related characterization system 220 can include, generate, apply, and/or otherwise process sleep-related characterization models, which can include any one or more of sleep-related condition models for characterizing one or more sleep-related conditions (e.g., determining propensity of one or more sleep-related conditions for one or more users, etc.), therapy models for determining therapies, and/or any other suitable models for any suitable purposes associated with the system 200 and/or method 100. In a specific example, the sleep-related characterization system 220 can generate and/or apply a therapy model (e.g., based on cross-condition analyses, etc.) for identifying and/or characterizing a therapy used to treat one or more sleep-related conditions. Different sleep-related characterization models (e.g., different combinations of sleep-related characterization models; different models applying different analytical techniques; different inputs and/or output types; applied in different manners such as in relation to time and/or frequency; etc.) can be applied (e.g., executed, selected, retrieves, stored, etc.) based on one or more of: sleep-related conditions (e.g., using different sleep-related characterization models depending on the sleep-related condition or conditions being characterized, such as where different sleep-related characterization models possess differing levels of suitability for processing data in relation to different sleep-related conditions and/or combinations of conditions, etc.), users (e.g., different sleep-related characterization models based on different user data and/or characteristics, demographic characteristics, genetics, environmental factors, etc.), sleep-related characterizations (e.g., different sleep-related characterization models for different types of characterizations, such as a therapy-related characterization versus a diagnosis-related characterization, such as for identifying relevant microbiome composition versus determining a propensity score for a sleep-related condition; etc.), therapies (e.g., different sleep-related characterization models for monitoring efficacy of different therapies, etc.), collection sites (e.g., different sleep-related characterization models for processing microorganism datasets corresponding to biological samples from different collection sites; etc.), supplementary data, and/or any other suitable components. In examples, different sleep-related characterization models can be tailored to different types of inputs, outputs, sleep-related characterizations, sleep-related conditions (e.g., different phenotypic measures that need to be characterized), and/or any other suitable entities. However, sleep-related characterization models can be tailored and/or used in any suitable manner for facilitating sleep-related characterization and/or therapeutic intervention.

Sleep-related characterization models, other models, other components of the system 200, and/or suitable portions of the method 100 (e.g., characterization processes, determining microbiome features, determining sleep-related characterizations, etc.) can employ analytical techniques including any one or more of: univariate statistical tests, multivariate statistical tests, dimensionality reduction techniques, artificial intelligence approaches (e.g., machine learning approaches, etc.), performing pattern recognition on data (e.g., identifying correlations between sleep-related conditions and microbiome features; etc.), fusing data from multiple sources (e.g., generating characterization models based on microbiome data and/or supplementary data from a plurality of users associated with one or more sleep-related conditions, such as based on microbiome features extracted from the data; etc.), combination of values (e.g., averaging values, etc.), compression, conversion (e.g., digital-to-analog conversion, analog-to-digital conversion), performing statistical estimation on data (e.g. ordinary least squares regression, non-negative least squares regression, principal components analysis, ridge regression, etc.), wave modulation, normalization, updating (e.g., of characterization models and/or therapy models based on processed biological samples over time; etc.), ranking (e.g., microbiome features; therapies; etc.), weighting (e.g., microbiome features; etc.), validating, filtering (e.g., for baseline correction, data cropping, etc.), noise reduction, smoothing, filling (e.g., gap filling), aligning, model fitting, binning, windowing, clipping, transformations, mathematical operations (e.g., derivatives, moving averages, summing, subtracting, multiplying, dividing, etc.), data association, multiplexing, demultiplexing, interpolating, extrapolating, clustering, image processing techniques, other signal processing operations, other image processing operations, visualizing, and/or any other suitable processing operations. Artificial intelligence approaches can include any one or more of: supervised learning (e.g., using logistic regression, using back propagation neural networks, using random forests, decision trees, etc.), unsupervised learning (e.g., using an Apriori algorithm, using K-means clustering), semi-supervised learning, a deep learning algorithm (e.g., neural networks, a restricted Boltzmann machine, a deep belief network method, a convolutional neural network method, a recurrent neural network method, stacked auto-encoder method, etc.) reinforcement learning (e.g., using a Q-learning algorithm, using temporal difference learning), a regression algorithm (e.g., ordinary least squares, logistic regression, stepwise regression, multivariate adaptive regression splines, locally estimated scatterplot smoothing, etc.), an instance-based method (e.g., k-nearest neighbor, learning vector quantization, self-organizing map, etc.), a regularization method (e.g., ridge regression, least absolute shrinkage and selection operator, elastic net, etc.), a decision tree learning method (e.g., classification and regression tree, iterative dichotomiser 3, C4.5, chi-squared automatic interaction detection, decision stump, random forest, multivariate adaptive regression splines, gradient boosting machines, etc.), a Bayesian method (e.g., naïve Bayes, averaged one-dependence estimators, Bayesian belief network, etc.), a kernel method (e.g., a support vector machine, a radial basis function, a linear discriminate analysis, etc.), a clustering method (e.g., k-means clustering, expectation maximization, etc.), an associated rule learning algorithm (e.g., an Apriori algorithm, an Eclat algorithm, etc.), an artificial neural network model (e.g., a Perceptron method, a back-propagation method, a Hopfield network method, a self-organizing map method, a learning vector quantization method, etc.), an ensemble method (e.g., boosting, boostrapped aggregation, AdaBoost, stacked generalization, gradient boosting machine method, random forest method, etc.), and/or any suitable artificial intelligence approach. However, data processing can be employed in any suitable manner.

The sleep-related characterization system 220 can preferably perform cross-condition analyses for a plurality of sleep-related conditions (e.g., generating multi-condition characterizations based on outputs of different sleep-related characterization models, such as multi-condition microbiome features; etc.). For example, the sleep-related characterization system can characterize relationships between sleep-related conditions based on microorganism data, microbiome features, and/or other suitable microbiome characteristics of users associated with (e.g., diagnosed with, characterized by, etc.) a plurality of sleep-related conditions. In a specific example, cross-condition analyses can be performed based on characterizations for individual sleep-related conditions (e.g., outputs from sleep-related characterization models for individual sleep-related conditions, etc.). Cross-condition analyses can include identification of condition-specific features (e.g., associated exclusively with a single sleep-related condition, etc.), multi-condition features (e.g., associated with two or more sleep-related conditions, etc.), and/or any other suitable types of features. Cross-condition analyses can include determination of parameters informing correlation, concordance, and/or other similar parameters describing relationships between two or more sleep-related conditions, such as by evaluating different pairs of sleep-related conditions. However, the sleep-related characterization system and/or other suitable components can be configured in any suitable manner to facilitate cross-condition analyses (e.g., applying analytical techniques for cross-condition analysis purposes; generating cross-condition characterizations, etc.).

The sleep-related characterization system 220 preferably includes a remote computing system (e.g., for applying sleep-related characterization models, etc.), but can additionally or alternatively include any suitable computing systems (e.g., local computing systems, user devices, handling system components, etc.). However, the sleep-related characterization system 220 can be configured in any suitable manner.

The therapy facilitation system 230 of the system 200 can function to facilitate therapeutic intervention (e.g., promote one or more therapies, etc.) for one or more sleep-related conditions (e.g., facilitating modulation of a user microbiome composition and functional diversity for improving a state of the user in relation to one or more sleep-related conditions, etc.). The therapy facilitation system 230 can facilitate therapeutic intervention for any number of sleep-related conditions associated with any number of collection sites, such as based on multi-site characterizations, multi-condition characterizations, other characterizations, and/or any other suitable data. The therapy facilitation system 230 can include any one or more of: a communications system (e.g., to communicate therapy recommendations, selections, discouragements, and/or other suitable therapy-related information to a computing device (e.g., user device and/or care provider device; mobile device; smart phone; desktop computer; at a website, web application, and/or mobile application accessed by the computing device; etc.); to enable telemedicine between a care provider and a subject in relation to a sleep-related condition; etc.), an application executable on a user device (e.g., indicating microbiome composition and/or functionality for a user; etc.), a medical device (e.g., a biological sampling device, such as for collecting samples from different collection sites; medication provision devices; surgical systems; etc.), a user device (e.g., biometric sensors), and/or any other suitable component. One or more therapy facilitation systems 230 can be controllable, communicable with, and/or otherwise associated with the sleep-related characterization system 220. For example, the sleep-related characterization system 220 can generate characterizations of one or more sleep-related conditions for the therapy facilitation system 230 to present (e.g., transmit, communicate, etc.) to a corresponding user (e.g., at an interface 240, etc.). In another example, the therapy facilitation system 230 can update and/or otherwise modify an application and/or other software of a device (e.g., user smartphone) to promote a therapy (e.g., promoting, at a to-do list application, lifestyle changes for improving a user state associated with one or more sleep-related conditions, etc.). However, the therapy facilitation system 230 can be configured in any other manner.

As shown in FIG. 9, the system 200 can additionally or alternatively include an interface 240, which can function to improve presentation of microbiome characteristics, sleep-related condition information (e.g., propensity metrics; therapy recommendations; comparisons to other users; other characterizations; etc.). In examples, the interface 240 can present sleep-related condition information including a microbiome composition (e.g., taxonomic groups; relative abundances; etc.), functional diversity (e.g., relative abundance of genes associated with particular functions, and propensity metrics for one or more sleep-related conditions, such as relative to user groups sharing a demographic characteristic (e.g., smokers, exercisers, users on different dietary regimens, consumers of probiotics, antibiotic users, groups undergoing particular therapies, etc.). However, the interface 240 can be configured in any suitable manner.

While the components of the system 200 are generally described as distinct components, they can be physically and/or logically integrated in any manner. For example, a computing system (e.g., a remote computing system, a user device, etc.) can implement portions and/or all of the sleep-related characterization system 220 (e.g., apply a microbiome-related condition model to generate a characterization of sleep-related conditions for a user, etc.) and the therapy facilitation system 230 (e.g., facilitate therapeutic intervention through presenting insights associated with microbiome composition and/or function; presenting therapy recommendations and/or information; scheduling daily events at a calendar application of the smartphone to notify the user in relation to therapies for improving sleep-related, etc.). However, the functionality of the system 200 can be distributed in any suitable manner amongst any suitable system components. However, the components of the system 200 can be configured in any suitable manner

4.1 Determining a Microorganism Dataset.

Block S110 can include determining a microorganism dataset (e.g., microorganism sequence dataset, microbiome composition diversity dataset such as based upon a microorganism sequence dataset, microbiome functional diversity dataset such as based upon a microorganism sequence dataset, etc.) associated with a set of subjects S110. Block S110 can function to process biological samples (e.g., an aggregate set of biological samples associated with a population of subjects, a subpopulation of subjects, a subgroup of subjects sharing a demographic characteristic and/or other suitable characteristics; a user biological sample; etc.), in order to determine compositional, functional, pharmacogenomics, and/or other suitable aspects associated with the corresponding microbiomes, such as in relation to one or more sleep-related conditions. Compositional and/or functional aspects can include one or more of aspects at the microorganism level (and/or other suitable granularity), including parameters related to distribution of microorganisms across different groups of kingdoms, phyla, classes, orders, families, genera, species, subspecies, strains, and/or any other suitable infraspecies taxon (e.g., as measured in total abundance of each group, relative abundance of each group, total number of groups represented, etc.). Compositional and/or functional aspects can also be represented in terms of operational taxonomic units (OTUs). Compositional and/or functional aspects can additionally or alternatively include compositional aspects at the genetic level (e.g., regions determined by multilocus sequence typing, 16S sequences, 18S sequences, ITS sequences, other genetic markers, other phylogenetic markers, etc.). Compositional and functional aspects can include the presence or absence or the quantity of genes associated with specific functions (e.g. enzyme activities, transport functions, immune activities, etc.). Outputs of Block 110 can thus be used to facilitate determination of microbiome features (e.g., generation of a microorganism sequence dataset usable for identifying microbiome features; etc.) for the characterization process of Block S130 and/or other suitable portions of the method 100 (e.g., where Block S110 can lead to outputs of microbiome composition datasets, microbiome functional datasets, and/or other suitable microorganism datasets from which microbiome features can be extracted, etc.), where the features can be microorganism-based (e.g., presence of a genus of bacteria), genetic-based (e.g., based upon representation of specific genetic regions and/or sequences), functional-based (e.g., presence of a specific catalytic activity), and/or any other suitable microbiome features.

In a variation, Block S110 can include assessment and/or processing based upon phylogenetic markers (e.g., for generating microorganism datasets, etc.) derived from bacteria and/or archaea in relation to gene families associated with one or more of: ribosomal protein S2, ribosomal protein S3, ribosomal protein S5, ribosomal protein S7, ribosomal protein S8, ribosomal protein S9, ribosomal protein S10, ribosomal protein S11, ribosomal protein S12/S23, ribosomal protein S13, ribosomal protein S15P/S13e, ribosomal protein S17, ribosomal protein S19, ribosomal protein L1, ribosomal protein L2, ribosomal protein L3, ribosomal protein L4/L1e, ribosomal protein L5, ribosomal protein L6, ribosomal protein L10, ribosomal protein L11, ribosomal protein L14b/L23e, ribosomal protein L15, ribosomal protein L16/L10E, ribosomal protein L18P/L5E, ribosomal protein L22, ribosomal protein L24, ribosomal protein L25/L23, ribosomal protein L29, translation elongation factor EF-2, translation initiation factor IF-2, metalloendopeptidase, ffh signal recognition particle protein, phenylalanyl-tRNA synthetase beta subunit, phenylalanyl-tRNA synthetase alpha subunit, tRNA pseudouridine synthase B, Porphobilinogen deaminase, ribosomal protein L13, phosphoribosylformylglycinamidine cyclo-ligase, and ribonuclease HII. Additionally or alternatively, markers can include target sequences (e.g., sequences associated with a microorganism taxonomic group; sequences associated with functional aspects; sequences correlated with sleep-related conditions; sequences indicative of user responsiveness to different therapies; sequences that are invariant across a population and/or any suitable set of subjects, such as to facilitate multiplex amplification using a primer type sharing a primer sequence; conserved sequences; sequences including mutations, polymorphisms; nucleotide sequences; amino acid sequences; etc.), proteins (e.g., serum proteins, antibodies, etc.), peptides, carbohydrates, lipids, other nucleic acids, whole cells, metabolites, natural products, genetic predisposition biomarkers, diagnostic biomarkers, prognostic biomarkers, predictive biomarkers, other molecular biomarkers, gene expression markers, imaging biomarkers, and/or other suitable markers. However, markers can include any other suitable marker(s) associated with microbiome composition, microbiome functionality, and/or sleep-related conditions.

Characterizing the microbiome composition and/or functional aspects for each of the aggregate set of biological samples thus preferably includes a combination of sample processing techniques (e.g., wet laboratory techniques; as shown in FIG. 5), including, but not limited to, amplicon sequencing (e.g., 16S, 18S, ITS), UMIs, 3 step PCR, Crispr, metagenomic approaches, metatranscriptomics, use of random primers, and computational techniques (e.g., utilizing tools of bioinformatics), to quantitatively and/or qualitatively characterize the microbiome and functional aspects associated with each biological sample from a subject or population of subjects.

In variations, sample processing in Block 110 can include any one or more of: lysing a biological sample, disrupting membranes in cells of a biological sample, separation of undesired elements (e.g., RNA, proteins) from the biological sample, purification of nucleic acids (e.g., DNA) in a biological sample, amplification of nucleic acids from the biological sample, further purification of amplified nucleic acids of the biological sample, and sequencing of amplified nucleic acids of the biological sample. In an example, Block 110 can include: collecting biological samples from a set of users (e.g., biological samples collected by the user with a sampling kit including a sample container, etc.), where the biological samples include microorganism nucleic acids associated with the sleep-related condition (e.g., microorganism nucleic acids including target sequences correlated with a sleep-related condition; etc.). In another example, Block S110 can include providing a set of sampling kits to a set of users, each sampling kit of the set of sampling kits including a sample container (e.g., including pre-processing reagents, such as lysing reagents; etc.) operable to receive a biological sample from a user of the set of users.

In variations, lysing a biological sample and/or disrupting membranes in cells of a biological sample preferably includes physical methods (e.g., bead beating, nitrogen decompression, homogenization, sonication), which omit certain reagents that produce bias in representation of certain bacterial groups upon sequencing. Additionally or alternatively, lysing or disrupting in Block 110 can involve chemical methods (e.g., using a detergent, using a solvent, using a surfactant, etc.). Additionally or alternatively, lysing or disrupting in Block 110 can involve biological methods. In variations, separation of undesired elements can include removal of RNA using RNases and/or removal of proteins using proteases. In variations, purification of nucleic acids can include one or more of: precipitation of nucleic acids from the biological samples (e.g., using alcohol-based precipitation methods), liquid-liquid based purification techniques (e.g., phenol-chloroform extraction), chromatography-based purification techniques (e.g., column adsorption), purification techniques involving use of binding moiety-bound particles (e.g., magnetic beads, buoyant beads, beads with size distributions, ultrasonically responsive beads, etc.) configured to bind nucleic acids and configured to release nucleic acids in the presence of an elution environment (e.g., having an elution solution, providing a pH shift, providing a temperature shift, etc.), and any other suitable purification techniques.

In variations, amplification of purified nucleic acids can include one or more of: polymerase chain reaction (PCR)-based techniques (e.g., solid-phase PCR, RT-PCR, qPCR, multiplex PCR, touchdown PCR, nanoPCR, nested PCR, hot start PCR, etc.), helicase-dependent amplification (HDA), loop mediated isothermal amplification (LAMP), self-sustained sequence replication (3SR), nucleic acid sequence based amplification (NASBA), strand displacement amplification (SDA), rolling circle amplification (RCA), ligase chain reaction (LCR), and any other suitable amplification technique. In amplification of purified nucleic acids, the primers used are preferably selected to prevent or minimize amplification bias, as well as configured to amplify nucleic acid regions/sequences (e.g., of the 16S region, the 18S region, the ITS region, etc.) that are informative taxonomically, phylogenetically, for diagnostics, for formulations (e.g., for probiotic formulations), and/or for any other suitable purpose. Thus, universal primers (e.g., a F27-R338 primer set for 16S RNA, a F515-R806 primer set for 16S RNA, etc.) configured to avoid amplification bias can be used in amplification. Additionally or alternatively include incorporated barcode sequences and/or UMIs specific to biological samples, to users, to sleep-related conditions, to taxa, to target sequences, and/or to any other suitable components, which can facilitate a post-sequencing identification process (e.g., for mapping sequence reads to microbiome composition and/or microbiome function aspects; etc.). Primers used in variations of Block 110 can additionally or alternatively include adaptor regions configured to cooperate with sequencing techniques involving complementary adaptors (e.g., Illumina Sequencing). Additionally or alternatively, Block S110 can implement any other step configured to facilitate processing (e.g., using a Nextera kit). In a specific example, performing amplification and/or sample processing operations can be in a multiplex manner (e.g., for a single biological sample, for a plurality of biological samples across multiple users; etc.). In another specific example, performing amplification can include normalization steps to balance libraries and detect all amplicons in a mixture independent of the amount of starting material, such as 3 step PCR, bead based normalization, and/or other suitable techniques.

In variations, sequencing of purified nucleic acids can include methods involving targeted amplicon sequencing, metatranscriptomic sequencing, and/or metagenomic sequencing, implementing techniques including one or more of: sequencing-by-synthesis techniques (e.g., Illumina sequencing), capillary sequencing techniques (e.g., Sanger sequencing), pyrosequencing techniques, and nanopore sequencing techniques (e.g., using an Oxford Nanopore technique).

In a specific example, amplification and sequencing of nucleic acids from biological samples of the set of biological samples includes: solid-phase PCR involving bridge amplification of DNA fragments of the biological samples on a substrate with oligo adapters, where amplification involves primers having a forward index sequence (e.g., corresponding to an Illumina forward index for MiSeq/NextSeq/HiSeq platforms), a forward barcode sequence, a transposase sequence (e.g., corresponding to a transposase binding site for MiSeq/NextSeq/HiSeq platforms), a linker (e.g., a zero, one, or two-base fragment configured to reduce homogeneity and improve sequence results), an additional random base, UMIs, a sequence for targeting a specific target region (e.g., 16S region, 18S region, ITS region), a reverse index sequence (e.g., corresponding to an Illumina reverse index for MiSeq/HiSeq platforms), and a reverse barcode sequence. In the specific example, sequencing can include Illumina sequencing (e.g., with a HiSeq platform, with a MiSeq platform, with a NextSeq platform, etc.) using a sequencing-by-synthesis technique. In another specific example, the method 100 can include: identifying one or more primer types compatible with one or more genetic targets associated with one or more sleep-related conditions (e.g., a biomarker of the one or more sleep-related conditions; positively correlated with; negatively correlated with; causative of; etc.); determining a microorganism dataset (e.g., microorganism sequence dataset; such as with a next-generation sequencing system; etc.) for one or more users (e.g., set of subjects) based on the one or more primer types (e.g., based on primers corresponding to the one or more primer types, and on the microorganism nucleic acids included in collected biological samples, etc.), such as through fragmenting the microorganism nucleic acids, and/or performing a singleplex amplification process and/or a multiplex amplification process for the fragmented microorganism nucleic acids based on the one or more identified primer types (e.g., primers corresponding to the primer types, etc.) compatible with the one or more genetic targets associated with the sleep-related condition; and/or promoting (e.g., providing), based on a sleep-related characterization derived from the a microorganism dataset a therapy for the user condition (e.g., enabling selective modulation of a microbiome of the user in relation to at least one of a population size of a desired taxon and a desired microbiome function, etc.). In a specific example, the biological samples can correspond to a set of collection sites including at least one of a gut site, a skin site, a nose site, a mouth site, and a genitals site, and where determining a microorganism dataset (e.g., microorganism sequence dataset, etc.) can include identifying a first primer type compatible with a first genetic target associated with one or more sleep-related conditions and a first collection site of the set of collection sites; identifying a second primer type compatible with a second genetic target associated with the one or more sleep-related conditions and a second collection site of the set of collection sites; and generating the microorganism dataset for the set of subjects based on the microorganism nucleic acids, the first primers corresponding to the first primer type, and second primers corresponding to the second primer type. In the specific example, the first collection site type can include the gut site (e.g., which can be evaluated through stool samples, etc.), where determining the microorganism dataset can include determining at least one of a metagenomic library and a metatranscriptomic library based on a subset of the microorganism nucleic acids and the first primers, and where determining the at least one of the set of microbiome composition features and the set of microbiome functional features can include determining the at least one of the set of microbiome composition features and the set of microbiome functional features based on the at least one of the metagenomic library and the metatranscriptomic library. However, processing metagenomic libraries and/or metatranscriptomic libraries (e.g., for any suitable portions of the method 100 and/or system 200) can be performed in any suitable manner.

In variations, primers (e.g., of a primer type corresponding to a primer sequence; etc.) used in Block S110 and/or other suitable portions of the method 100 can include primers associated with protein genes (e.g., coding for conserved protein gene sequences across a plurality of taxa, such as to enable multiplex amplification for a plurality of targets and/or taxa; etc.). Primers can additionally or alternatively be associated with sleep-related conditions (e.g., primers compatible with genetic targets including microorganism sequence biomarkers for microorganisms correlated with sleep-related conditions; etc.), microbiome composition features (e.g., identified primers compatible with a genetic target corresponding to microbiome composition features associated with a group of taxa correlated with a sleep-related condition; genetic sequences from which relative abundance features are derived etc.), functional diversity features, supplementary features, and/or other suitable features and/or data. Primers (and/or other suitable molecules, markers, and/or biological material described herein) can possess any suitable size (e.g., sequence length, number of base pairs, conserved sequence length, variable region length, etc.). Additionally or alternatively, any suitable number of primers can be used in sample processing for performing characterizations (e.g., sleep-related characterizations; etc.), improving sample processing (e.g., through reducing amplification bias, etc.), and/or for any suitable purposes. The primers can be associated with any suitable number of targets, sequences, taxa, conditions, and/or other suitable aspects. Primers used in Block 110 and/or other suitable portions of the method 100 can be selected through processes described in Block 110 (e.g., primer selection based on parameters used in generating the taxonomic database) and/or any other suitable portions of the method 100. Additionally or alternatively, primers (and/or processes associated with primers) can include and/or be analogous to that described in U.S. application Ser. No. 14/919,614, filed 21 Oct. 2015, which is herein incorporated in its entirety by this reference. However, identification and/or usage of primers can be configured in any suitable manner.

Some variations of sample processing can include further purification of amplified nucleic acids (e.g., PCR products) prior to sequencing, which functions to remove excess amplification elements (e.g., primers, dNTPs, enzymes, salts, etc.). In examples, additional purification can be facilitated using any one or more of: purification kits, buffers, alcohols, pH indicators, chaotropic salts, nucleic acid binding filters, centrifugation, and/or any other suitable purification technique.

In variations, computational processing in Block 110 can include any one or more of: identification of microbiome-derived sequences (e.g., as opposed to subject sequences and contaminants), alignment and mapping of microbiome-derived sequences (e.g., alignment of fragmented sequences using one or more of single-ended alignment, ungapped alignment, gapped alignment, pairing), and generating features associated with (e.g., derived from) compositional and/or functional aspects of the microbiome associated with a biological sample.

Identification of microbiome-derived sequences can include mapping of sequence data from sample processing to a subject reference genome (e.g., provided by the Genome Reference Consortium), in order to remove subject genome-derived sequences. Unidentified sequences remaining after mapping of sequence data to the subject reference genome can then be further clustered into operational taxonomic units (OTUs) based upon sequence similarity and/or reference-based approaches (e.g., using VAMPS, using MG-RAST, using QIIME databases), aligned (e.g., using a genome hashing approach, using a Needleman-Wunsch algorithm, using a Smith-Waterman algorithm), and mapped to reference bacterial genomes (e.g., provided by the National Center for Biotechnology Information), using an alignment algorithm (e.g., Basic Local Alignment Search Tool, FPGA accelerated alignment tool, BWT-indexing with BWA, BWT-indexing with SOAP, BWT-indexing with Bowtie, etc.). Mapping of unidentified sequences can additionally or alternatively include mapping to reference archaeal genomes, viral genomes and/or eukaryotic genomes. Furthermore, mapping of taxa can be performed in relation to existing databases, and/or in relation to custom-generated databases.

However, processing biological samples, generating a microorganism dataset, and/or other aspects associated with Block 110 can be performed in any suitable manner.

4.2 Processing Supplementary Data.

The method 100 can additionally or alternatively include Block S120, which can include processing (e.g., receiving, collecting, transforming, determining supplementary features, ranking supplementary features, identifying correlations, etc.) supplementary data (e.g., one or more supplementary datasets, etc.) associated with (e.g., informative of; describing; indicative of; correlated with; etc.) one or more sleep-related conditions, one or more users, and/or other suitable entities. Block S120 can function to process data for supplementing microorganism datasets, microbiome features (e.g., in relation to determining sleep-related characterizations and/or facilitating therapeutic intervention, etc.), and/or can function to supplement any suitable portion of the method 100 and/or system 200 (e.g., processing supplementary data for facilitating one or more characterization processes, such as in Block S130; such as for facilitating training, validating, generating, determining, applying and/or otherwise processing sleep-related characterization models, etc.). In an example, supplementary data can include at least one of survey-derived data, user data, site-specific data, and device data (and/or other suitable supplementary data), where the method 100 can include determining a set of supplementary features based on the at least one of the survey-derived data, the user data, the site-specific data, and the device data (and/or other suitable supplementary data); and generating one or more sleep-related characterization models based on the supplementary features, microbiome features, and/or other suitable data.

Supplementary data can include any one or more of: survey-derived data (e.g., data from responses to one or more surveys surveying for one or more sleep-related conditions, for any suitable types of data described herein; etc.); site-specific data (e.g., data informative of different collection sites, such as prior biological knowledge indicating correlations between microbiomes at specific collection sites and one or more sleep-related conditions; etc.); sleep-related condition data (e.g., data informative of different sleep-related conditions, such as in relation to microbiome characteristics, therapies, users, etc.); device data (e.g., sensor data; contextual sensor data associated with sleep; wearable device data; medical device data; user device data such as mobile phone application data; web application data; etc.); user data (e.g., user medical data current and historical medical data such as historical therapies, historical medical examination data; medical device-derived data; physiological data; data associated with medical tests; social media data; demographic data; family history data; behavior data describing behaviors; environmental factor data describing environmental factors; diet-related data such as data from food establishment check-ins, data from spectrophotometric analysis, user-inputted data, nutrition data associated with probiotic and/or prebiotic food items, types of food consumed, amount of food consumed, caloric data, diet regimen data, and/or other suitable diet-related data; etc.); prior biological knowledge (e.g., informative of sleep-related conditions, microbiome characteristics, associations between microbiome characteristics and sleep-related conditions, etc.); and/or any other suitable type of supplementary data.

In variations, processing supplementary data can include processing survey-derived data, where the survey-derived data can provide physiological data, demographic data, behavior data, environmental factor data (e.g., describing environmental factors, etc.), other types of supplementary data, and/or any other suitable data. Physiological data can include information related to physiological features (e.g., height, weight, body mass index, body fat percent, body hair level, medical history, etc.). Demographic data can include information related to demographic characteristics (e.g., gender, age, ethnicity, marital status, number of siblings, socioeconomic status, sexual orientation, etc.). Behavioral data can describe behaviors including one or more: health-associated states (e.g., health and disease states), dietary habits (e.g., alcohol consumption, caffeine consumption, omnivorous, vegetarian, vegan, sugar consumption, acid consumption, consumption of wheat, egg, soy, treenut, peanut, shellfish, food preferences, allergy characteristics, consumption and/or avoidance of other food items, etc.), behavioral tendencies (e.g., levels of physical activity, drug use, alcohol use, habit development, etc.), different levels of mobility (e.g., amount of exercise such as low, moderate, and/or extreme physical exercise activity; related to distance traveled within a given time period; indicated by mobility sensors such as motion and/or location sensors; etc.), different levels of sexual activity (e.g., related to numbers of partners and sexual orientation), and any other suitable behavioral data. Survey-derived data can include quantitative data, qualitative data, and/or other suitable types of survey-derived data, such as where qualitative data can be converted to quantitative data (e.g., using scales of severity, mapping of qualitative responses to quantified scores, etc.). Processing survey-derived data can include facilitating collection of survey-derived data, such as including providing one or more surveys to one or more users, subjects, and/or other suitable entities. Surveys can be provided in-person (e.g., in coordination with sample kit provision and/or reception of samples; etc.), electronically (e.g., during account setup; at an application executing at an electronic device of a subject, at a web application and/or website accessible through an internet connection; etc.), and/or in any other suitable manner.

Additionally or alternatively, processing supplementary data can include processing sensor data (e.g., sensors of sleep-related devices, wearable computing devices, mobile devices; biometric sensors associated with the user, such as biometric sensors of a user smart phone; etc.). Sensor data can include any one or more of: physical activity- and/or physical action-related data (e.g., accelerometer data, gyroscope data, location sensor data such as GPS data, and/or other mobility sensor data from one or more devices such as a mobile device and/or wearable electronic device, etc.), sensor data describing environmental factors (e.g., temperature data, elevation data, climate data, light parameter data, pressure data, air quality data, etc.), biometric sensor data (e.g., heart rate sensor data; fingerprint sensor data; optical sensor data such as facial images and/or video; data recorded through sensors of a mobile device; data recorded through a wearable or other peripheral device; etc.), and/or any other suitable data associated with sensors. Additionally or alternatively, sensor data can include data sampled at one or more: optical sensors (e.g., image sensors, light sensors, cameras, etc.), audio sensors (e.g., microphones, etc.), temperature sensors, volatile compound sensors, air quality sensors, weight sensors, humidity sensors, depth sensors, location sensors (GPS receivers; beacons; indoor positioning systems; compasses; etc.), motion sensors (e.g., accelerators, gyroscope, magnetometer, remote motion detection systems such as for monitoring motion of a user when sleeping, motion sensors integrated with a device worn by a user during sleep, etc.), biometric sensors (e.g., heart rate sensors such as for monitoring heart rate during a time period associated with user sleep; fingerprint sensors; facial recognition sensors; bio-impedance sensors, etc.), pressure sensors (e.g., integrated with a bedding-related component, such as for detecting user motion when sleeping on a bed, etc.), proximity sensors (e.g., for monitoring motion and/or other aspects of third-party objects associated with user sleep periods; etc.), flow sensors, power sensors (e.g., Hall effect sensors), virtual reality-related sensors, augmented reality-related sensors, and/or or any other suitable types of sensors.

Additionally or alternatively, supplementary data can include medical record data and/or clinical data. As such, portions of the supplementary dataset can be derived from one or more electronic health records (EHRs). Additionally or alternatively, supplementary data can include any other suitable diagnostic information (e.g., clinical diagnosis information). Any suitable supplementary data (e.g., in the form of extracted supplementary features, etc.) can be combined with and/or used with microbiome features and/or other suitable data for performing portions of the method 100 (e.g., performing characterization processes, etc.) and/or system 200. For example, supplementary data associated with (e.g., derived from, etc.) a colonoscopy, biopsy, blood test, diagnostic imaging, other suitable diagnostic procedures, survey-related information, and/or any other suitable test can be used to supplement (e.g., for any suitable portions of the method 100 and/or system 200).

Additionally or alternatively, supplementary data can include therapy-related data including one or more of: therapy regimens, types of therapies, recommended therapies, therapies used by the user, therapy adherence, and/or other suitable data related to therapies. For example, supplementary data can include user adherence metrics (e.g., medication adherence, probiotic adherence, physical exercise adherence, dietary adherence, etc.) in relation one or more therapies (e.g., a recommended therapy, etc.). However, processing supplementary data can be performed in any suitable manner.

4.2 Performing a Characterization Process.

Block S130 can include, performing a characterization process (e.g., pre-processing, feature generation, feature processing, multi-site characterization for a plurality of collection sites, cross-condition analysis for a plurality of sleep-related conditions, model generation, etc.) associated with one or more sleep-related conditions, such as based on a microorganism dataset (e.g., derived in Block 110, etc.) and/or other suitable data (e.g., supplementary dataset; etc.) S130. Block S130 can function to identify, determine, extract, and/or otherwise process features and/or feature combinations that can be used to determine sleep-related characterizations for users or and sets of users, based upon their microbiome composition (e.g., microbiome composition diversity features, etc.), function (e.g., microbiome functional diversity features, etc.), and/or other suitable microbiome features (e.g., such as through the generation and application of a characterization model for determining sleep-related characterizations, etc.). As such, the characterization process can be used as a diagnostic tool that can characterize a subject (e.g., in terms of behavioral traits, in terms of medical conditions, in terms of demographic characteristics, etc.) based upon their microbiome composition and/or functional features, in relation to one or more of their health condition states (e.g., sleep-related condition states), behavioral traits, medical conditions, demographic characteristics, and/or any other suitable traits. Such characterizations can be used to determine, recommend, and/or provide therapies (e.g., personalized therapies, such as determined by way of a therapy model, etc.), and/or otherwise facilitate therapeutic intervention.

Performing a characterization process S130 can include pre-processing microorganism datasets, microbiome features, and/or other suitable data for facilitation of downstream processing (e.g., determining sleep-related characterizations, etc.). In an example, performing a characterization process can include, filtering a microorganism dataset (e.g., filtering a microorganism sequence dataset, such as prior to applying a set of analytical techniques to determine the microbiome features, etc.), by at least one of: a) removing first sample data corresponding to first sample outliers of a set of biological samples (e.g., associated with one or more sleep-related conditions, etc.), such as where the first sample outliers are determined by at least one of principal component analysis, a dimensionality reduction technique, and a multivariate methodology; b) removing second sample data corresponding to second sample outliers of the set of biological samples, where the second sample outliers can determined based on corresponding data quality for the set of microbiome features (e.g., removing samples corresponding to a number of microbiome features with high quality data below a threshold condition, etc.); and c) removing one or more microbiome features from the set of microbiome features based on a sample number for the microbiome feature failing to satisfy a threshold sample number condition, where the sample number corresponds to a number of samples associated with high quality data for the microbiome feature. However, pre-processing can be performed with any suitable analytical techniques in any suitable manner.

In performing the characterization process, Block S130 can use computational methods (e.g., statistical methods, machine learning methods, artificial intelligence methods, bioinformatics methods, etc.) to characterize a subject as exhibiting features (e.g., where determining user microbiome features can include determining feature values for microbiome features identified by characterization processes as correlated with and/or otherwise associated with one or more sleep-related conditions, etc.) associated with one or more sleep-related conditions (e.g., features characteristic of a set of users with the one or more sleep-related conditions, etc.).

As shown in FIG. 3, performing characterization processes can include determining one or more microbiome features associated with one or more sleep-related conditions (e.g., identifying microbiome features with greatest relevance to one or more sleep-related conditions; determining user microbiome features, such as presence, absence, and/or values of user microbiome features corresponding to the identified microbiome features associated with the one or more sleep-related conditions, etc.), such as through applying one or more analytical techniques. In an example, determining microbiome features (e.g., microbiome composition features, microbiome functional features, etc.) can applying a set of analytical techniques including at least one of a univariate statistical test, a multivariate statistical test, a dimensionality reduction technique, and an artificial intelligence approach, such as based on a microorganism dataset (e.g., microorganism sequence dataset, etc.), and where the microbiome features configured to improve computing system-related functionality associated with the determining of the sleep-related characterization for the user (e.g., in relation to accuracy, reducing error, processing speed, scaling, etc.). In an example, determining microbiome features (e.g., user microbiome features, etc.) can include applying a set of analytical techniques to determine at least one of presence of at least one of a microbiome composition diversity feature and a microbiome functional diversity feature, absence of the at least one of the microbiome composition diversity feature and the microbiome functional diversity feature, a relative abundance feature describing relative abundance of different taxonomic groups associated with the first sleep-related condition, a ratio feature describing a ratio between at least two microbiome features associated with the different taxonomic groups, an interaction feature describing an interaction between the different taxonomic groups, and a phylogenetic distance feature describing phylogenetic distance between the different taxonomic groups, such as based on the microorganism dataset, and where the set of analytical techniques can include at least one of a univariate statistical test, a multivariate statistical test, a dimensionality reduction technique, and an artificial intelligence approach.

In variations, upon identification of represented groups of microorganisms of the microbiome associated with a biological sample, generating features associated with (e.g., derived from) compositional and functional aspects of the microbiome associated with a biological sample can be performed. In a variation, generating features can include generating features based upon multilocus sequence typing (MSLT), in order to identify markers useful for characterization in subsequent blocks of the method 100. Additionally or alternatively, generated features can include generating features that describe the presence or absence of certain taxonomic groups of microorganisms, and/or ratios between exhibited taxonomic groups of microorganisms. Additionally or alternatively, generating features can include generating features describing one or more of: quantities of represented taxonomic groups, networks of represented taxonomic groups, correlations in representation of different taxonomic groups, interactions between different taxonomic groups, products produced by different taxonomic groups, interactions between products produced by different taxonomic groups, ratios between dead and alive microorganisms (e.g., for different represented taxonomic groups, based upon analysis of RNAs), phylogenetic distance (e.g., in terms of Kantorovich-Rubinstein distances, Wasserstein distances etc.), any other suitable taxonomic group-related feature(s), any other suitable genetic or functional aspect(s).

Additionally or alternatively, generating features can include generating features describing relative abundance of different microorganism groups, for instance, using a sparCC approach, using Genome Relative Abundance and Average size (GAAS) approach and/or using a Genome Relative Abundance using Mixture Model theory (GRAMMy) approach that uses sequence-similarity data to perform a maximum likelihood estimation of the relative abundance of one or more groups of microorganisms. Additionally or alternatively, generating features can include generating statistical measures of taxonomic variation, as derived from abundance metrics. Additionally or alternatively, generating features can include generating features associated with (e.g., derived from) relative abundance factors (e.g., in relation to changes in abundance of a taxon, which affects abundance of other taxa). Additionally or alternatively, generating features can include generation of qualitative features describing presence of one or more taxonomic groups, in isolation and/or in combination. Additionally or alternatively, generating features can include generation of features related to genetic markers (e.g., representative 16S, 18S, and/or ITS sequences) characterizing microorganisms of the microbiome associated with a biological sample. Additionally or alternatively, generating features can include generation of features related to functional associations of specific genes and/or organisms having the specific genes. Additionally or alternatively, generating features can include generation of features related to pathogenicity of a taxon and/or products attributed to a taxon. Block S130 can, however, include determination of any other suitable feature(s) derived from sequencing and mapping of nucleic acids of a biological sample. For instance, the feature(s) can be combinatory (e.g. involving pairs, triplets), correlative (e.g., related to correlations between different features), and/or related to changes in features (e.g., temporal changes, changes across sample sites, etc., spatial changes, etc.). However, determining microbiome features can be performed in any suitable manner.

In variations, performing a characterization process can include performing one or more multi-site analyses (e.g., with sleep-related characterization models; generating a multi-site characterization, etc.) associated with a plurality of collection sites. However, multi-site analyses can be performed in any suitable manner.

In variations, performing a characterization process can include performing one or more cross-condition analyses (e.g., using sleep-related characterization models, etc.) for a plurality of sleep-related conditions. In an example, performing cross-condition analyses can include determining a set of cross-condition features (e.g., as part of determining microbiome features, etc.) associated with a plurality of sleep-related conditions (e.g., a first sleep-related condition and a second sleep-related condition, etc.) based on one or more analytical techniques, where determining a sleep-related characterization can include determining the sleep-related characterization for a user for the plurality of sleep-related conditions (e.g., first and the second sleep-related conditions, etc.) based on one or more sleep-related characterization models, and where the set of cross-condition features is configured to improve the computing system-related functionality associated with the determining of the sleep-related characterization for the user for the plurality of sleep-related conditions. Performing cross-condition analyses can include determining cross-condition correlation metrics (e.g., correlation and/or covariance between data corresponding to different sleep-related conditions, etc.) and/or other suitable metrics associated with cross-condition analyses. However, performing cross-condition analyses can be performed in any suitable manner.

In a variation, characterization can be based upon features associated with (e.g., derived from) a statistical analysis (e.g., an analysis of probability distributions) of similarities and/or differences between a first group of subjects exhibiting a target state (e.g., a sleep-related condition state) and a second group of subjects not exhibiting the target state (e.g., a “normal” state). In implementing this variation, one or more of a Kolmogorov-Smirnov (KS) test, a permutation test, a Cramer-von Mises test, any other statistical test (e.g., t-test, z-test, chi-squared test, test associated with distributions, etc.), and/or other suitable analytical techniques can be used. In particular, one or more such statistical hypothesis tests can be used to assess a set of features having varying degrees of abundance in a first group of subjects exhibiting a target state (e.g., a sick state) and a second group of subjects not exhibiting the target state (e.g., having a normal state). In more detail, the set of features assessed can be constrained based upon percent abundance and/or any other suitable parameter pertaining to diversity in association with the first group of subjects and the second group of subjects, in order to increase or decrease confidence in the characterization. In a specific implementation of this example, a feature can be derived from a taxon of bacteria that is abundant in a certain percentage of subjects of the first group and subjects of the second group, where a relative abundance of the taxon between the first group of subjects and the second group of subjects can be determined from the KS test, with an indication of significance (e.g., in terms of p-value). Thus, an output of Block S130 can include a normalized relative abundance value (e.g., 25% greater abundance of a taxon in subjects with a sleep-related condition vs. subjects without the sleep-related condition; in sick subjects vs. healthy subjects) with an indication of significance (e.g., a p-value of 0.0013). Variations of feature generation can additionally or alternatively implement or be derived from functional features or metadata features (e.g., non-bacterial markers). Additionally or alternatively, any suitable microbiome features can be derived based on statistical analyses (e.g., applied to a microorganism sequence dataset and/or other suitable microorganism dataset, etc.) including any one or more of: a prediction analysis, multi hypothesis testing, a random forest test, principal component analysis, and/or other suitable analytical techniques.

In performing the characterization process, Block S130 can additionally or alternatively transform input data from at least one of the microbiome composition diversity dataset and microbiome functional diversity dataset into feature vectors that can be tested for efficacy in predicting characterizations of the population of subjects. Data from the supplementary dataset can be used to provide indication of one or more characterizations of a set of characterizations, where the characterization process is trained with a training dataset of candidate features and candidate classifications to identify features and/or feature combinations that have high degrees (or low degrees) of predictive power in accurately predicting a classification. As such, refinement of the characterization process with the training dataset identifies feature sets (e.g., of subject features, of combinations of features) having high correlation with specific classifications of subjects.

In variations, feature vectors (and/or any suitable set of features) effective in predicting classifications of the characterization process can include features related to one or more of: microbiome diversity metrics (e.g., in relation to distribution across taxonomic groups, in relation to distribution across archaeal, bacterial, viral, and/or eukaryotic groups), presence of taxonomic groups in one's microbiome, representation of specific genetic sequences (e.g., 16S sequences) in one's microbiome, relative abundance of taxonomic groups in one's microbiome, microbiome resilience metrics (e.g., in response to a perturbation determined from the supplementary dataset), abundance of genes that encode proteins or RNAs with given functions (enzymes, transporters, proteins from the immune system, hormones, interference RNAs, etc.) and any other suitable features associated with (e.g., derived from) the microbiome diversity dataset and/or the supplementary dataset. In variations, microbiome features can be associated with (e.g., include, correspond to, typify, etc.) at least one of: presence of a microbiome feature from the microbiome features (e.g., user microbiome features, etc.), absence of the microbiome features from the microbiome features, relative abundance of different taxonomic groups associated with the sleep-related condition; a ratio between at least two microbiome features associated with the different taxonomic groups, interactions between the different taxonomic groups, and phylogenetic distance between the different taxonomic groups. In a specific example, microbiome features can include one or more relative abundance characteristics associated with at least one of the microbiome composition diversity features (e.g., relative abundance associated with different taxa, etc.) and the microbiome functional diversity features (e.g., relative abundance of sequences corresponding to different functional features; etc.). Relative abundance characteristics and/or other suitable microbiome features (and/or other suitable data described herein) can be extracted and/or otherwise determined based on: a normalization, a feature vector derived from at least one of linear latent variable analysis and non-linear latent variable analysis, linear regression, non-linear regression, a kernel method, a feature embedding method, a machine learning method, a statistical inference method, and/or other suitable analytical techniques. Additionally or alternatively, combinations of features can be used in a feature vector, where features can be grouped and/or weighted in providing a combined feature as part of a feature set. For example, one feature or feature set can include a weighted composite of the number of represented classes of bacteria in one's microbiome, presence of a specific genus of bacteria in one's microbiome, representation of a specific 16S sequence in one's microbiome, and relative abundance of a first phylum over a second phylum of bacteria. However, the feature vectors can additionally or alternatively be determined in any other suitable manner.

In a variation, the characterization process can be generated and trained according to a random forest predictor (RFP) algorithm that combines bagging (e.g., bootstrap aggregation) and selection of random sets of features from a training dataset to construct a set of decision trees, T, associated with the random sets of features. In using a random forest algorithm, N cases from the set of decision trees are sampled at random with replacement to create a subset of decision trees, and for each node, m prediction features are selected from all of the prediction features for assessment. The prediction feature that provides the best split at the node (e.g., according to an objective function) is used to perform the split (e.g., as a bifurcation at the node, as a trifurcation at the node). By sampling many times from a large dataset, the strength of the characterization process, in identifying features that are strong in predicting classifications can be increased substantially. In this variation, measures to prevent bias (e.g., sampling bias) and/or account for an amount of bias can be included during processing, such as to increase robustness of the model.

In a variation, Block S130 and/or other portions of the method 100 can include applying computer-implemented rules (e.g., models, feature selection rules, etc.) to process population-level data, but can additionally or alternatively include applying computer-implemented rules to process microbiome-related data on a demographic characteristic-specific basis (e.g., subgroups sharing one or more demographic characteristics such as therapy regimens, dietary regimens, physical activity regimens, ethnicity, age, gender, weight, sleeping behaviors, etc.), condition-specific basis (e.g., subgroups exhibiting a specific sleep-related condition, a combination of sleep-related conditions, triggers for the sleep-related conditions, associated symptoms, etc.), a sample type-specific basis (e.g., applying different computer-implemented rules to process microbiome data derived from different collection sites; etc.), a user basis (e.g., different computer-implemented rules for different users; etc.) and/or any other suitable basis. As such, Block S130 can include assigning users from the population of users to one or more subgroups; and applying different computer-implemented rules for determining features (e.g., the set of feature types used; the types of characterization models generated from the features; etc.) for the different subgroups. However, applying computer-implemented rules can be performed in any suitable manner.

In another variation, Block S130 can include processing (e.g., generating, training, updating, executing, storing, etc.) one or more sleep-related characterization models (e.g., sleep-related condition models, therapy models, etc.) for one or more sleep-related conditions (e.g., for outputting characterizations for users describing user microbiome characteristics in relation to sleep-related conditions; therapy models for outputting therapy determinations for one or more sleep-related conditions; etc.). The characterization models preferably leverage microbiome features as inputs, and preferably output sleep-related characterizations and/or any suitable components thereof; but characterization models can use any suitable inputs to generate any suitable outputs. In an example, Block S130 can include transforming the supplementary data, the microbiome composition diversity features, and the microbiome functional diversity features, other microbiome features, outputs of sleep-related characterization models, and/or other suitable data into one or more characterization models (e.g., training a sleep-related characterization model based on the supplementary data and microbiome features; etc.) for one or more sleep-related conditions. In another example, the method 100 can include: determining a population microorganism sequence dataset (e.g., including microorganism sequence outputs for different users of the population; etc.) for a population of users associated with one or more sleep-related conditions, based on a set of samples from the population of users (e.g., and/or based on one or more primer types associated with the sleep-related condition; etc.); collecting a supplementary dataset associated with diagnosis of the one or more sleep-related conditions for the population of subjects; and generating the sleep-related characterization model based on the population microorganism sequence dataset and the supplementary dataset. In an example, the method 100 can include determining a set of user microbiome features for the user based on a sample from the user, where the set of user microbiome features is associated with microbiome features associated with a set of subjects (e.g., microbiome features determined to be correlated with one or more sleep-related conditions, based on processing biological samples corresponding to a set of subjects associated with the one or more sleep-related conditions; a set microbiome composition features and the set of microbiome functional features; etc.); determining a sleep-related characterization, including determining a therapy for the user for the one or more sleep-related conditions based on a therapy model and the set of user microbiome features; providing the therapy (e.g., providing a recommendation for the therapy to the user at a computing device associated with the user, etc.) and/or otherwise facilitating therapeutic intervention.

In another variation, as shown in FIGS. 8A-8C, different sleep-related characterization models and/or other suitable models (e.g., generated with different algorithms, with different sets of features, with different input and/or output types, applied in different manners such as in relation to time, frequency, component applying the model, etc.) can be generated for different sleep-related conditions, different user demographic characteristics (e.g., based on age, gender, weight, height, ethnicity; etc.), different physiological sites (e.g., a gut site model, a nose site model, a skin site model, a mouth site model, a genitals site model, etc.), individual users, supplementary data (e.g., models incorporating prior knowledge of microbiome features, sleep-related conditions, and/or other suitable components; features associated with biometric sensor data and/or survey response data vs. models independent of supplementary data, etc.), and/or other suitable criteria.

In variations, determining sleep-related characterizations and/or any other suitable characterizations can include determining sleep-related characterizations in relation to specific physiological sites (e.g., gut, healthy gut, skin, nose, mouth, genitals, other suitable physiological sites, other sample collection sites, etc.), such as through any one or more of: determining a sleep-related characterization based on a sleep-related characterization model derived based on site-specific data (e.g., defining correlations between a sleep-related condition and microbiome features associated with one or more physiological sites); determining a sleep-related characterization based on a user biological sample collected at one or more physiological sites, and/or any other suitable site-related processes. In examples, machine learning approaches (e.g., classifiers, deep learning algorithms, SVM, random forest), parameter optimization approaches (e.g., Bayesian Parameter Optimization), validation approaches (e.g., cross validation approaches), statistical tests (e.g., univariate statistical techniques, multivariate statistical techniques, correlation analysis such as canonical correlation analysis, etc.), dimension reduction techniques (e.g. PCA), and/or other suitable analytical techniques (e.g., described herein) can be applied in determining site-related (e.g., physiological site-related, etc.) characterizations (e.g., using a one or more approaches for one or more sample collection sites, such as for each type of sample collection site, etc.), other suitable characterizations, therapies, and/or any other suitable outputs. In a specific example, performing a characterization process (e.g., determining a sleep-related characterization; determining microbiome features; based on a sleep-related characterization model; etc.) can include applying at least one of: machine learning approaches, parameter optimization approaches, statistical tests, dimension reduction approaches, and/or other suitable approaches (e.g., where microbiome features such as a set of microbiome composition diversity features and/or a set of microbiome functional diversity features can be associated with microorganisms collected at least at one of a gut site, a skin site, a nose site, a mouth site, a genitals site, etc.). In another specific example, characterization processes performed for a plurality of sample collection sites can be used to generate individual characterizations that can be combined to determine an aggregate characterization (e.g., an aggregate microbiome score, such as for one or more conditions described herein, etc.). However, the method 100 can include determining any suitable site-related (e.g., site-specific) outputs, and/or performing any suitable portions of the method 100 (e.g., collecting samples, processing samples, determining therapies) with site-specificity and/or other site-relatedness in any suitable manner.

Characterization of the subject(s) can additionally or alternatively implement use of a high false positive test and/or a high false negative test to further analyze sensitivity of the characterization process in supporting analyses generated according to embodiments of the method 100. However, performing one or more characterization processes S130 can be performed in any suitable manner.

4.3.A Sleep-related characterization process.

Performing a characterization process S130 can include performing a sleep-related characterization process (e.g., determining a characterization for one or more sleep-related conditions; determining and/or applying one or more sleep-related characterization model; etc.) S135, such as for one or more users (e.g., for data corresponding to samples from a set of subjects for generating one or more sleep-related characterization models; for a single user for generating a sleep-related characterization for the user, such as through using one or more sleep-related characterization models; etc.) and/or for one or more sleep-related conditions.

In a variation, performing a sleep-related characterization process can include determining microbiome features associated with one or more sleep-related conditions (e.g., a sleep order condition. In an example, performing a sleep-related characterization process can include applying one or more analytical techniques (e.g., statistical analyses) to identify the sets of microbiome features (e.g., microbiome composition features, microbiome composition diversity features, microbiome functional features, microbiome functional diversity features, etc.) that have the highest correlations with one or more sleep-related conditions (e.g., features associated with a single sleep-related condition, cross-condition features associated with multiple sleep-related conditions and/or other suitable sleep-related conditions, etc.). In a specific example, performing a sleep-related characterization process can facilitate therapeutic intervention for one or more sleep-related conditions, such as through facilitating intervention associated with therapies having a positive effect on a state of one or more users in relation to the one or more sleep-related conditions. In another specific example, performing a sleep-related characterization process (e.g., determining features highest correlations to one or more sleep-related conditions, etc.) can be based upon a random forest predictor algorithm trained with a training dataset derived from a subset of the population of subjects (e.g., subjects having the one or more sleep-related conditions; subjects not having the one or more sleep-related conditions; etc.), and validated with a validation dataset derived from a subset of the population of subjects. However, determining microbiome features and/or other suitable aspects associated with one or more sleep-related conditions can be performed in any suitable manner.

Microbiome features associated with one or more sleep-related conditions (e.g., positively correlated with; negatively correlated with; useful for diagnosis; etc.) can include features associated with any combination of one or more of the following taxa (e.g., features describing abundance of; features describing relative abundance of; features describing functional aspects associated with; features derived from; features describing presence and/or absence of; etc.) described in Table 1 (e.g., in relation to a sleep-related condition of bad sleep quality, etc.) and/or Table 2 (e.g., in relation to a sleep-related condition of shift work, such as night time shift work with day time sleeping periods, etc.) and/or: Acetitomaculum (genus), Acidaminococcaceae (family), Acidaminococcus (genus), Acidaminococcus sp. D21 (species), Actinobacteria (class), Actinobacteria (phylum), Actinomyces (genus), Actinomyces sp. ICM47 (species), Actinomyces sp. ICM54 (species), Actinomyces sp. S9 PR-21 (species), Akkermansia muciniphila (species), Alcaligenaceae (family), Alistipes indistinctus (species), Alistipes sp. 627 (species), Anaerococcus (genus), Anaerococcus hydrogenalis (species), Anaerococcus octavius (species), Anaerococcus sp. 8404299 (species), Anaerococcus sp. 8405254 (species), Anaerococcus tetradius (species), Anaerofustis (genus), Anaerofustis stercorihominis (species), Anaeroplasma (genus), Anaerosporobacter (genus), Anaerostipes sp. 1y-2 (species), Anaerostipes sp. 3_2_56FAA (species), Anaerotruncus colihominis (species), Anaerotruncus sp. NML 070203 (species), Atopobium (genus), Atopobium vaginae (species), Bacteroides clarus (species), Bacteroides coprocola (species), Bacteroides nordii (species), Bacteroides plebeius (species), Bacteroides sp. 2_2_4 (species), Bacteroides sp. CB57 (species), Bacteroides sp. DJF_B097 (species), Bacteroides sp. EBA5-17 (species), Bacteroides sp. SLC1-38 (species), Bacteroides sp. XB12B (species), Bacteroides stercorirosoris (species), Bifidobacteriaceae (family), Bifidobacteriales (order), Bifidobacterium (genus), Bifidobacterium biavatii (species), Bifidobacterium bifidum (species), Bifidobacterium choerinum (species), Bifidobacterium longum (species), Bifidobacterium merycicum (species), Bifidobacterium sp. MSX5B (species), Bifidobacterium stercoris (species), Blautia glucerasea (species), Blautia hydrogenotrophica (species), Blautia sp. Ser8 (species), Blautia sp. YHC-4 (species), Brevibacterium massiliense (species), Butyricicoccus (genus), Butyricicoccus pullicaecorum (species), Butyricimonas synergistica (species), Butyrivibrio (genus), Butyrivibrio crossotus (species), Campylobacter (genus), Campylobacter hominis (species), Campylobacter ureolyticus (species), Campylobacteraceae (family), Campylobacterales (order), Candidatus Soleaferrea (genus), Candidatus Stoquefichus (genus), Catabacter hongkongensis (species), Catenibacterium mitsuokai (species), Cellulosilyticum (genus), Collinsella aerofaciens (species), Collinsella intestinalis (species), Coprobacillus (genus), Coprobacillus sp. D6 (species), Coprobacter (genus), Coprobacter fastidiosus (species), Corynebacterium sp. (species), Corynebacterium ulcerans (species), Cyanobacteria (phylum), Dermabacter (genus), Dermabacter hominis (species), Dermabacteraceae (family), Desulfovibrio desulfuricans (species), Desulfovibrio piger (species), Desulfovibrio sp. (species), Dialister (genus), Dialister invisus (species), Dialister propionicifaciens (species), Dielma (genus), Dielma fastidiosa (species), Eggerthella (genus), Eggerthella sp. HGA1 (species), Eisenbergiella tayi (species), Enterobacter (genus), Enterobacter sp. BS2-1 (species), Enterococcus sp. C6I11 (species), Epsilonproteobacteria (class), Erysipelatoclostridium ramosum (species), Eubacteriaceae (family), Eubacterium (genus), Eubacterium callanderi (species), Eubacterium sp. SA11 (species), Facklamia sp. 1440-97 (species), Fibrobacter (genus), Flavobacterium (genus), Flavonifractor plautii (species), Fusobacteria (phylum), Fusobacteriaceae (family), Fusobacteriales (order), Fusobacteriia (class), Fusobacterium (genus), Fusobacterium equinum (species), Fusobacterium ulcerans (species), Gardnerella (genus), Gardnerella vaginalis (species), Gelria (genus), Gordonibacter (genus), Gordonibacter pamelaeae (species), Granulicatella (genus), Granulicatella adiacens (species), Haemophilus (genus), Haemophilus parainfluenzae (species), Herbaspirillum (genus), Herbaspirillum seropedicae (species), Holdemania (genus), Holdemania filiformis (species), Howardella (genus), Hydrogenoanaerobacterium (genus), Intestinibacter (genus), Klebsiella (genus), Kluyvera georgiana (species), Lachnospira (genus), Lactobacillus crispatus (species), Lactobacillus rhamnosus (species), Lactobacillus sp. 66c (species), Lactobacillus sp. Akhmrol (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-30 (species), Lactonifactor (genus), Lactonifactor longoviformis (species), Leptotrichiaceae (family), Leuconostoc (genus), Leuconostocaceae (family), Megamonas (genus), Megamonas funiformis (species), Megasphaera (genus), Megasphaera genomosp. C1 (species), Megasphaera sp. S6-MB2 (species), Megasphaera sp. UPII 199-6 (species), Mobiluncus (genus), Mobiluncus mulieris (species), Moryella (genus), Negativicoccus (genus), Negativicoccus succinicivorans (species), Negativicutes (class), Oligella (genus), Oligella urethralis (species), Olsenella sp. 1183 (species), Oscillospiraceae (family), Pantoea (genus), Papillibacter (genus), Parabacteroides goldsteinii (species), Parabacteroides sp. 157 (species), Paraprevotella clara (species), Parvimonas micra (species), Pasteurellaceae (family), Pasteurellales (order), Peptoniphilus (genus), Peptoniphilus coxii (species), Peptoniphilus sp. 2002-2300004 (species), Peptoniphilus sp. 7-2 (species), Peptoniphilus sp. gpac018A (species), Phascolarctobacterium (genus), Phascolarctobacterium succinatutens (species), Phyllobacteriaceae (family), Phyllobacterium (genus), Porphyromonas uenonis (species), Prevotella bivia (species), Prevotella disiens (species), Propionibacteriaceae (family), Propionibacterium (genus), Proteobacteria (phylum), Pseudobutyrivibrio (genus), Pseudoclavibacter sp. Timone(species), Rhizobiales (order), Roseburia (genus), Ruminococcaceae (family), Sarcina ventriculi (species), Selenomonadales order Shuttleworthia (genus), Sphingomonadaceae (family), Sphingomonadales (order), Stenotrophomonas (genus), Stenotrophomonas sp. C-S-TSA3 (species), Streptococcus agalactiae (species), Streptococcus gordonii (species), Streptococcus pasteurianus (species), Streptococcus peroris (species), Streptococcus sp. BS35a (species), Streptococcus sp. oral taxon G59 (species), Sutterella (genus), Sutterella sp. YIT 12072 (species), Sutterella stercoricanis (species), Sutterella wadsworthensis (species), Terrisporobacter glycolicus (species), Thermoanaerobacteraceae (family), Thermoanaerobacterales (order), Turicibacter (genus), Turicibacter sanguinis (species), Varibaculum (genus), Varibaculum cambriense (species), Veillonella sp. AS16 (species), Veillonellaceae (family), Weissella hellenica (species), Xanthomonadaceae (family), Xanthomonadales (order), Alistipes massiliensis (species), Butyricimonas virosa (species), Alistipes putredinis (species), Actinobacillus porcinus (species), Actinobacillus (genus), Butyricimonas (genus), Howardella ureilytica (species), Firmicutes (phylum), Clostridium (genus), Lentisphaeria (class), Anaeroplasmataceae (family), Pseudomonadaceae (family), Victivallaceae (family), Blautia (genus), Asteroleplasma (genus), Delftia (genus), Victivallis (genus), Peptostreptococcus (genus), Pseudomonas (genus), Alloprevotella (genus), Catenibacterium (genus), Anaeroplasmatales (order), Pseudomonadales (order), Lentisphaerae (phylum), Veillonella sp. CM60 (species), Porphyromonas sp. 2026 (species), Delftia sp. BN-SKY3 (species), Peptostreptococcus anaerobius (species), Citrobacter sp. BW4 (species), Alistipes sp. RMA 9912 (species), Bacteroides vulgatus (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-26 (species), Bifidobacterium kashiwanohense (species), Butyricimonas sp. JCM 18677 (species) and/or any other suitable taxa (e.g., described herein, etc.).

In a first variation, microbiome features associated with one or more sleep-related conditions can include features associated with one or more of the following taxa: Acetitomaculum (genus), Acidaminococcaceae (family), Acidaminococcus (genus), Acidaminococcus sp. D21 (species), Actinobacteria (class), Actinobacteria (phylum), Actinomyces (genus), Actinomyces sp. ICM47 (species), Actinomyces sp. ICM54 (species), Actinomyces sp. S9 PR-21 (species), Akkermansia muciniphila (species), Alcaligenaceae (family), Alistipes indistinctus (species), Alistipes sp. 627 (species), Anaerococcus (genus), Anaerococcus hydrogenalis (species), Anaerococcus octavius (species), Anaerococcus sp. 8404299 (species), Anaerococcus sp. 8405254 (species), Anaerococcus tetradius (species), Anaerofustis (genus), Anaerofustis stercorihominis (species), Anaeroplasma (genus), Anaerosporobacter (genus), Anaerostipes sp. 1y-2 (species), Anaerostipes sp. 3—2_56FAA (species), Anaerotruncus colihominis (species), Anaerotruncus sp. NML 070203 (species), Atopobium (genus), Atopobium vaginae (species), Bacteroides clarus (species), Bacteroides coprocola (species), Bacteroides nordii (species), Bacteroides plebeius (species), Bacteroides sp. 2_2_4 (species), Bacteroides sp. CB57 (species), Bacteroides sp. DJF_B097 (species), Bacteroides sp. EBA5-17 (species), Bacteroides sp. SLC1-38 (species), Bacteroides sp. XB12B (species), Bacteroides stercorirosoris (species), Bifidobacteriaceae (family), Bifidobacteriales (order), Bifidobacterium (genus), Bifidobacterium biavatii (species), Bifidobacterium bifidum (species), Bifidobacterium choerinum (species), Bifidobacterium longum (species), Bifidobacterium merycicum (species), Bifidobacterium sp. MSX5B (species), Bifidobacterium stercoris (species), Blautia glucerasea (species), Blautia hydrogenotrophica (species), Blautia sp. Ser8 (species), Blautia sp. YHC-4 (species), Brevibacterium massiliense (species), Butyricicoccus (genus), Butyricicoccus pullicaecorum (species), Butyricimonas synergistica (species), Butyrivibrio (genus), Butyrivibrio crossotus (species), Campylobacter (genus), Campylobacter hominis (species), Campylobacter ureolyticus (species), Campylobacteraceae (family), Campylobacterales (order), Candidatus Soleaferrea (genus), Candidatus Stoquefichus (genus), Catabacter hongkongensis (species), Catenibacterium mitsuokai (species), Cellulosilyticum (genus), Collinsella aerofaciens (species), Collinsella intestinalis (species), Coprobacillus (genus), Coprobacillus sp. D6 (species), Coprobacter (genus), Coprobacter fastidiosus (species), Corynebacterium sp. (species), Corynebacterium ulcerans (species), Cyanobacteria (phylum), Dermabacter (genus), Dermabacter hominis (species), Dermabacteraceae (family), Desulfovibrio desulfuricans (species), Desulfovibrio piger (species), Desulfovibrio sp. (species), Dialister (genus), Dialister invisus (species), Dialister propionicifaciens (species), Dielma (genus), Dielma fastidiosa (species), Eggerthella (genus), Eggerthella sp. HGA1 (species), Eisenbergiella tayi (species), Enterobacter (genus), Enterobacter sp. BS2-1 (species), Enterococcus sp. C6I11 (species), Epsilonproteobacteria (class), Erysipelatoclostridium ramosum (species), Eubacteriaceae (family), Eubacterium (genus), Eubacterium callanderi (species), Eubacterium sp. SA11 (species), Facklamia sp. 1440-97 (species), Fibrobacter (genus), Flavobacterium (genus), Flavonifractor plautii (species), Fusobacteria (phylum), Fusobacteriaceae (family), Fusobacteriales (order), Fusobacteriia (class), Fusobacterium (genus), Fusobacterium equinum (species), Fusobacterium ulcerans (species), Gardnerella (genus), Gardnerella vaginalis (species), Gelria (genus), Gordonibacter (genus), Gordonibacter pamelaeae (species), Granulicatella (genus), Granulicatella adiacens (species), Haemophilus (genus), Haemophilus parainfluenzae (species), Herbaspirillum (genus), Herbaspirillum seropedicae (species), Holdemania (genus), Holdemania filiformis (species), Howardella (genus), Hydrogenoanaerobacterium (genus), Intestinibacter (genus), Klebsiella (genus), Kluyvera georgiana (species), Lachnospira (genus), Lactobacillus crispatus (species), Lactobacillus rhamnosus (species), Lactobacillus sp. 66c (species), Lactobacillus sp. Akhmrol (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-30 (species), Lactonifactor (genus), Lactonifactor longoviformis (species), Leptotrichiaceae (family), Leuconostoc (genus), Leuconostocaceae (family), Megamonas (genus), Megamonas funiformis (species), Megasphaera (genus), Megasphaera genomosp. C1 (species), Megasphaera sp. S6-MB2 (species), Megasphaera sp. UPII 199-6 (species), Mobiluncus (genus), Mobiluncus mulieris (species), Moryella (genus), Negativicoccus (genus), Negativicoccus succinicivorans (species), Negativicutes (class), Oligella (genus), Oligella urethralis (species), Olsenella sp. 1183 (species), Oscillospiraceae (family), Pantoea (genus), Papillibacter (genus), Parabacteroides goldsteinii (species), Parabacteroides sp. 157 (species), Paraprevotella clara (species), Parvimonas micra (species), Pasteurellaceae (family), Pasteurellales (order), Peptoniphilus (genus), Peptoniphilus coxii (species), Peptoniphilus sp. 2002-2300004 (species), Peptoniphilus sp. 7-2 (species), Peptoniphilus sp. gpac018A (species), Phascolarctobacterium (genus), Phascolarctobacterium succinatutens (species), Phyllobacteriaceae (family), Phyllobacterium (genus), Porphyromonas uenonis (species), Prevotella bivia (species), Prevotella disiens (species), Propionibacteriaceae (family), Propionibacterium (genus), Proteobacteria (phylum), Pseudobutyrivibrio (genus), Pseudoclavibacter sp. Timone (species), Rhizobiales (order), Roseburia (genus), Ruminococcaceae (family), Sarcina ventriculi (species), Selenomonadales order Shuttleworthia (genus), Sphingomonadaceae (family), Sphingomonadales (order), Stenotrophomonas (genus), Stenotrophomonas sp. C-S-TSA3 (species), Streptococcus agalactiae (species), Streptococcus gordonii (species), Streptococcus pasteurianus (species), Streptococcus peroris (species), Streptococcus sp. BS35a (species), Streptococcus sp. oral taxon G59 (species), Sutterella (genus), Sutterella sp. YIT 12072 (species), Sutterella stercoricanis (species), Sutterella wadsworthensis (species), (species), Thermoanaerobacteraceae (family), Thermoanaerobacterales (order), Turicibacter (genus), Turicibacter sanguinis (species), Varibaculum (genus), Varibaculum cambriense (species), Veillonella sp. AS16 (species), Veillonellaceae (family), Weissella hellenica (species), Xanthomonadaceae (family), Xanthomonadales (order), and/or any other suitable taxa.

In a second variation, microbiome features associated with one or more sleep-related conditions (e.g., and/or behaviors and/or lifestyle conditions such as shift work, etc.) can include features associated with one or more of the following taxa: Alistipes massiliensis (species), Butyricimonas virosa (species), Leuconostocaceae (family), Lactobacillus sp. TAB-30 (species), Alistipes putredinis (species), Actinobacillus porcinus (species), Bifidobacterium stercoris (species), Actinobacillus (genus), Butyricimonas (genus), Howardella (genus), Catenibacterium mitsuokai (species), Howardella ureilytica (species), Firmicutes (phylum), Clostridium (genus), Lentisphaeria (class), Anaeroplasmataceae (family), Pseudomonadaceae (family), Victivallaceae (family), Blautia (genus), Asteroleplasma (genus), Delftia (genus), Victivallis (genus), Peptostreptococcus (genus), Pseudomonas (genus), Bifidobacterium (genus), Alloprevotella (genus), Catenibacterium (genus), Anaeroplasmatales (order), Pseudomonadales (order), Lentisphaerae (phylum), Veillonella sp. CM60 (species), Lactobacillus sp. Akhmrol (species), Porphyromonas sp. 2026 (species), Weissella hellenica (species), Delftia sp. BN-SKY3 (species), Peptostreptococcus anaerobius (species), Citrobacter sp. BW4 (species), Collinsella intestinalis (species), Alistipes sp. RMA 9912 (species), Bacteroides vulgatus (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-26 (species), Bifidobacterium sp. (species), Prevotella bivia (species), Bifidobacterium kashiwanohense (species), Butyricimonas sp. JCM 18677 (species), Bifidobacterium stercoris (species), and/or any other suitable taxa.

In an example, the method 100 can include determining a sleep-related characterization for the user for a first sleep-related condition and a second sleep-related condition based on a first set of composition features (e.g., including at least one or more of the microbiome features described above in relation to the first variation; including any suitable combination of microbiome features; etc.), a first sleep-related characterization model, a second set of composition features (e.g., including at least one or more of the microbiome features described above in relation to the second variation; including any suitable combination of microbiome features; etc.), and a second sleep-related characterization model, where the first sleep-related characterization model is associated with the first sleep-related condition (e.g., where the first sleep-related characterization model determines characterizations for the first sleep-related condition, etc.), and where the second sleep-related characterization model is associated with the second sleep-related condition (e.g., where the second sleep-related characterization model determines characterizations for the second sleep-related condition, etc.). In the example, determining user microbiome features can include determining first user microbiome functional features associated with first functions from at least one of Cluster of Orthologous Groups (COG) database and Kyoto Encyclopedia of Genes and Genomes (KEGG) database, where the first user microbiome functional features are associated with the first sleep-related condition; and determining second user microbiome functional features associated with second functions from at least one of the COG database and the KEGG database, where the second user microbiome functional features are associated with the second sleep-related condition, where determining the sleep-related characterization can include determining the sleep-related characterization for the user for the first sleep-related condition and the second sleep-related condition based on the first set of composition features, the first user microbiome functional features, the first sleep-related characterization model, the second set of composition features, the second user microbiome functional features, and the second sleep-related characterization model. Additionally or alternatively, any combinations of microbiome features can be used with any suitable number and types of sleep-related characterization models to determine sleep-related characterization for one or more sleep-related conditions, in any suitable manner.

Additionally or alternatively, microbiome features associated with one or more sleep-related conditions can include microbiome functional features (e.g., features describing functions associated with one or more microorganisms, such as microorganisms classified under taxa described herein; features describing functional diversity; features describing presence, absence, abundance, and/or relative abundance; etc.) corresponding to functions from and/or otherwise associated with the Clusters of Orthologous Groups (COG) database, Kyoto Encyclopedia of Genes and Genomes (KEGG) database, and/or any other suitable database available (e.g., databases with microorganism function data, etc.). However, microbiome features can include any suitable microbiome functional features associated with any suitable microorganism function, human function, and/or other suitable functionality. In examples, the method 100 can include generating one or more sleep-related characterization models based on any suitable combination of microbiome features described above and/or herein (e.g., based on a set of microbiome composition features including features associated with at least one of the taxa described herein; and/or based on microbiome functional features described herein, such as corresponding to functions from databases described herein; etc.) In an example, performing a characterization process for a user can include characterizing a user as having one or more sleep-related conditions, such as based upon detection of, values corresponding to, and/or other aspects related to microbiome features described herein (e.g., microbiome features described above, etc.), and such as in a manner that is an additional (e.g., supplemental to, complementary to, etc.) or alternative to typical approaches of diagnosis, other characterizations (e.g., treatment-related characterizations, etc.), treatment, monitoring, and/or other suitable approaches associated with sleep-related conditions. In variations, the microbiome features can be used for diagnostics, other characterizations, treatment, monitoring, and/or any other suitable purposes and/or approaches associated with sleep-related conditions. However, determining one or more sleep-related characterizations can be performed in any suitable manner.

4.3.B Determining a therapy.

Performing a characterization process S130 (e.g., performing a sleep-related therapy) can include Block S140, which can include determining one or more therapies (e.g., therapies configured to modulate microbiome composition, function, diversity, and/or other suitable aspects, such as for improving one or more aspects associated with sleep-related conditions, such as in users characterized based on one or more characterization processes; etc.). Block S140 can function to identify, select, rank, prioritize, predict, discourage, and/or otherwise determine therapies (e.g., facilitate therapy determination, etc.). For example, Block S140 can include determining one or more of probiotic-based therapies, bacteriophage-based therapies, small molecule-based therapies, and/or other suitable therapies, such as therapies that can shift a subject's microbiome composition, function, diversity, and/or other characteristics (e.g., microbiomes at any suitable sites, etc.) toward a desired state (e.g., equilibrium state, etc.) in promotion of a user's health, for modifying a state of one or more sleep-related conditions, and/or for other suitable purposes.

Therapies (e.g., sleep-related therapies, etc.) can include any one or more of: consumables (e.g., probiotic therapies, prebiotic therapies, medication, sleeping pills, melatonin supplements, allergy or cold medication, bacteriophage-based therapies, consumables for underlying conditions, small molecule therapies, etc.); device-related therapies (e.g., sleep-monitoring devices, such as a user device executing a sleep-monitoring application, sensor-based devices; dental guards; breathing devices; medical devices; implantable medical devices; sleep apnea devices such as continuous positive airway pressure devices, mandibular advancement devices, tongue retaining devices; stimulation devices such as electrostimulation devices, nerve stimulation devices; snoring prevention devices; catheters such as transtracheal catheters; nasal air filters; air quality devices such as air filtration devices; audio-based devices such as white noise machines; etc.); surgical operations (e.g., sleep apnea surgery; tonsillectomy; adenoidectomy; supraglottoplasty; turbinoplasty; septoplasty; septorhinoplasty; nasal surgeries; soft palate surgeries; oropharyngeal surgeries; hypopharyngeal surgeries; tracheostomies; maxillomandibular advancement; uvulopalatopharyngoplasty; hyoid suspension; genioglossus advancement; etc.); psychological-associated therapies (e.g., cognitive behavioral therapy, anxiety therapy, talking therapy, psychodynamic therapy, action-oriented therapy, rational emotive behavior therapy, interpersonal psychotherapy, relaxation training, deep breathing techniques, progressive muscle relaxation, sleep restriction therapy, meditation, etc.); behavior modification therapies (e.g., physical activity recommendations such as increased exercise; dietary recommendations such as reducing sugar intake, increased vegetable intake, increased fish intake, decreased caffeine consumption, decreased alcohol consumption, decreased carbohydrate intake; smoking recommendations such as decreasing tobacco intake; weight-related recommendations; sleep habit recommendations; device recommendations such as decreased electronic device usage before bedtime; recommendations in relation to other behaviors; etc.); topical administration therapies (e.g., bacteriophage-based therapies); environmental factor modification therapies; (e.g., adjusting lighting for sleep time and/or wake time; adjusting bedding-related factors; modification of other environmental factors; etc.); modification of any other suitable aspects associated with one or more sleep-related conditions; and/or any other suitable therapies (e.g., for improving a health state associated with one or more sleep-related conditions, such as therapies for improving one or more sleep-related conditions, therapies for reducing the risk of one or more sleep-related conditions, etc.). In examples, types of therapies can include any one or more of: probiotic therapies, bacteriophage-based therapies, small molecule-based therapies, cognitive/behavioral therapies, physical rehabilitation therapies, clinical therapies, medication-based therapies, diet-related therapies, and/or any other suitable therapy designed to operate in any other suitable manner in promoting a user's health.

In a variation, therapies can include one or more bacteriophage-based therapies (e.g., in the form of a consumable, in the form of a topical administration therapy, etc.), where one or more populations (e.g., in terms of colony forming units) of bacteriophages specific to a certain bacteria (or other microorganism) represented in the subject can be used to down-regulate or otherwise eliminate populations of the certain bacteria. As such, bacteriophage-based therapies can be used to reduce the size(s) of the undesired population(s) of bacteria represented in the subject. Additionally or alternatively, bacteriophage-based therapies can be used to increase the relative abundances of bacterial populations not targeted by the bacteriophage(s) used. However, bacteriophage-based therapies can be used to modulate characteristics of microbiomes (e.g., microbiome composition, microbiome function, etc.) in any suitable manner, and/or can be used for any suitable purpose.

In a variation, therapies can include one or more probiotic therapies and/or prebiotic therapies associated with any combination of at least one or more of (e.g., including any combination of one or more of, etc.) any suitable taxa described in Table 1 (e.g., in relation to therapies for a sleep-related condition of bad sleep quality, etc.) and/or Table 2 (e.g., in relation to therapies for a sleep-related condition for shift work, etc.) and/or: Anaerococcus sp. 8405254, Bacteroides nordii, Bacteroides sp. SLC1-38, Bifidobacterium merycicum, Blautia glucerasea, Blautia sp. YHC-4, Butyrivibrio crossotus, Catabacter hongkongensis, Catenibacterium mitsuokai, Collinsella aerofaciens, Collinsella intestinalis, Desulfovibrio piger, Eubacterium sp. SA11, Fusobacterium ulcerans, Lactobacillus sp. TAB-30, Megamonas funiformis, Megasphaera sp. S6-MB2, Olsenella sp. 1183, Phascolarctobacterium succinatutens, Streptococcus gordonii, Sutterella sp. YIT 12072, Sutterella wadsworthensis, Veillonella sp. AS16, Fusobacterium equinum, Facklamia sp. 1440-97, Anaerostipes sp. 3_2_56FAA, Pseudoclavibacter sp. Timone, Parvimonas micra, Lactobacillus sp. 66c, Bacteroides coprocola, Corynebacterium ulcerans, Anaerostipes sp. 1y-2, Sarcina ventriculi, Lactonifactor longoviformis, Enterococcus sp. C6I11, Eubacterium callanderi, Dialister invisus, Blautia sp. Ser8, Bacteroides plebeius, Bacteroides sp. 2_2_4, Anaerotruncus colihominis, Varibaculum cambriense, Actinomyces sp. S9 PR-21, Desulfovibrio sp., Prevotella disiens, Mobiluncus mulieris, Lactobacillus rhamnosus, Bifidobacterium sp. MSX5B, Acidaminococcus sp. D21, Bifidobacterium bifidum, Bacteroides sp. EBA5-17, Anaerococcus hydrogenalis, Alistipes sp. 627, Negativicoccus succinicivorans, Anaerococcus sp. 8404299, Butyricimonas synergistica, Actinomyces sp. ICM54, Turicibacter sanguinis, Blautia hydrogenotrophica, Parabacteroides goldsteinii, Bifidobacterium biavatii, Erysipelatoclostridium ramosum, Anaerofustis stercorihominis, Gardnerella vaginalis, Gordonibacter pamelaeae, Campylobacter hominis, Lactobacillus sp. BL302, Megasphaera sp. UPII 199-6, Peptoniphilus sp. gpac018A, Bifidobacterium stercoris, Butyricicoccus pullicaecorum, Megasphaera sp. S6-MB2, Corynebacterium sp., Dialister propionicifaciens, Anaerococcus tetradius, Eggerthella sp. HGA1, Peptoniphilus sp. 7-2, Terrisporobacter glycolicus, Peptoniphilus sp. 2002-2300004, Bacteroides sp. CB57, Streptococcus pasteurianus, Megasphaera genomosp. C1, Holdemania filiformis, Coprobacillus sp. D6, Dielma fastidiosa, Sutterella stercoricanis, Brevibacterium massiliense, Bacteroides stercorirosoris, Lactobacillus sp. Akhmrol, Actinomyces sp. ICM47, Lactobacillus crispatus, Prevotella bivia, Enterobacter sp. BS2-1, Streptococcus sp. BS35a, Anaerotruncus sp. NML 070203, Haemophilus parainfluenzae, Peptoniphilus coxii, Granulicatella adiacens, Campylobacter ureolyticus, Bifidobacterium longum, Bacteroides clarus, Bacteroides sp. XB12B, Streptococcus agalactiae, Kluyvera georgiana, Flavonifractor plautii, Paraprevotella clara, Stenotrophomonas sp. C-S-TSA3, Bacteroides sp. DJF_B097, Herbaspirillum seropedicae, Streptococcus sp. oral taxon G59, Eisenbergiella tayi, Coprobacter fastidiosus, Oligella urethralis, Akkermansia muciniphila, Desulfovibrio desulfuricans, Streptococcus peroris, Anaerococcus octavius, Atopobium vaginae, Parabacteroides sp. 157, Bifidobacterium choerinum, Porphyromonas uenonis, Dermabacter hominis, Alistipes indistinctus, Weissella hellenica, Alistipes massiliensis, Butyricimonas virosa, Alistipes putredinis, Actinobacillus porcinus, Howardella ureilytica, Veillonella sp. CM60, Porphyromonas sp. 2026, Delftia sp. BN-SKY3, Peptostreptococcus anaerobius, Citrobacter sp. BW4, Alistipes sp. RMA 9912, Bacteroides vulgatus, Lactobacillus sp. TAB-26, Bifidobacterium sp., Bifidobacterium kashiwanohense, Butyricimonas sp. JCM 18677, and/or any other suitable microorganisms associated with any suitable taxonomic groups (e.g., microorganisms from taxa described herein, such as in relation to microbiome features, etc.). For one or more probiotic therapies and/or other suitable therapies, microorganisms associated with a given taxonomic group, and/or any suitable combination of microorganisms can be provided at dosages of 0.1 million to 10 billion CFU, and/or at any suitable amount (e.g., as determined from a therapy model that predicts positive adjustment of a patient's microbiome in response to the therapy, etc.). In an example, a subject can be instructed to ingest capsules including the probiotic formulation according to a regimen tailored to one or more of his/her: physiology (e.g., body mass index, weight, height), demographic characteristics (e.g., gender, age), severity of dysbiosis, sensitivity to medications, and any other suitable factor.

In a specific example of probiotic therapies, as shown in FIG. 4, candidate therapies of the therapy model can perform one or more of: blocking pathogen entry into an epithelial cell by providing a physical barrier (e.g., by way of colonization resistance), inducing formation of a mucous barrier by stimulation of goblet cells, enhance integrity of apical tight junctions between epithelial cells of a subject (e.g., by stimulating up regulation of zona-occludens 1, by preventing tight junction protein redistribution), producing antimicrobial factors, stimulating production of anti-inflammatory cytokines (e.g., by signaling of dendritic cells and induction of regulatory T-cells), triggering an immune response, and performing any other suitable function that adjusts a subject's microbiome away from a state of dysbiosis. In another specific example, therapies can include medical-device based therapies (e.g., associated with human behavior modification, associated with treatment of disease-related conditions, etc.).

In variations, the therapy model is preferably based upon data from a large population of subjects, which can include the population of subjects from which the microbiome diversity datasets are derived in Block S110, where microbiome composition and/or functional features or states of health, prior exposure to and post exposure to a variety of therapeutic measures, are well characterized. Such data can be used to train and validate the therapy provision model, in identifying therapeutic measures that provide desired outcomes for subjects based upon different sleep-related characterizations. In variations, support vector machines, as a supervised machine learning algorithm, can be used to generate the therapy provision model. However, any other suitable machine learning algorithm described above can facilitate generation of the therapy provision model.

Additionally or alternatively, the therapy model can be derived in relation to identification of a “normal” or baseline microbiome composition and/or functional features, as assessed from subjects of a population of subjects who are identified to be in good health. Upon identification of a subset of subjects of the population of subjects who are characterized to be in good health (e.g., using features of the characterization process), therapies that modulate microbiome compositions and/or functional features toward those of subjects in good health can be generated in Block S140. Block S140 can thus include identification of one or more baseline microbiome compositions and/or functional features (e.g., one baseline microbiome for each of a set of demographic characteristics), and potential therapy formulations and therapy regimens that can shift microbiomes of subjects who are in a state of dysbiosis toward one of the identified baseline microbiome compositions and/or functional features. The therapy model can, however, be generated and/or refined in any other suitable manner.

Microorganism compositions associated with probiotic therapies and/or prebiotic therapies (e.g., associated with probiotic therapies determined by a therapy model applied by a therapy facilitation system, etc.) can include microorganisms that are culturable (e.g., able to be expanded to provide a scalable therapy) and/or non-lethal (e.g., non-lethal in their desired therapeutic dosages). Furthermore, microorganism compositions can include a single type of microorganism that has an acute or moderated effect upon a subject's microbiome. Additionally or alternatively, microorganism compositions can include balanced combinations of multiple types of microorganisms that are configured to cooperate with each other in driving a subject's microbiome toward a desired state. For instance, a combination of multiple types of bacteria in a probiotic therapy can include a first bacteria type that generates products that are used by a second bacteria type that has a strong effect in positively affecting a subject's microbiome. Additionally or alternatively, a combination of multiple types of bacteria in a probiotic therapy can include several bacteria types that produce proteins with the same functions that positively affect a subject's microbiome.

Probiotic and/or prebiotic compositions can be naturally or synthetically derived. For instance, in one application, a probiotic composition can be naturally derived from fecal matter or other biological matter (e.g., of one or more subjects having a baseline microbiome composition and/or functional features, as identified using the characterization process and the therapy model). Additionally or alternatively, probiotic compositions can be synthetically derived (e.g., derived using a benchtop method) based upon a baseline microbiome composition and/or functional features, as identified using the characterization process and the therapy model. In variations, microorganism agents that can be used in probiotic therapies can include one or more of: yeast (e.g., Saccharomyces boulardii), gram-negative bacteria (e.g., E. coli Nissle), gram-positive bacteria (e.g., Bifidobacteria bifidum, Bifidobacteria infantis, Lactobacillus rhamnosus, Lactococcus lactis, Lactobacillus plantarum, Lactobacillus acidophilus, Lactobacillus casei, Bacillus polyfermenticus, etc.), and any other suitable type of microorganism agent. However, probiotic therapies, prebiotic therapies and/or other suitable therapies can include any suitable combination of microorganisms associated with any suitable taxa described herein, and/or therapies can be configured in any suitable manner.

Block S140 can include executing, storing, retrieving, and/or otherwise processing one or more therapy models for determining one or more therapies. Processing one or more therapy models is preferably based on microbiome features. For example, generating a therapy model can based on microbiome features associated with one or more sleep-related conditions, therapy-related aspects such as therapy efficacy in relation to microbiome characteristics, and/or other suitable data. Additionally or alternatively, processing therapy models can be based on any suitable data. In an example, processing a therapy model can include determining one or more therapies for a user based on one or more therapy models, user microbiome features (e.g., inputting user microbiome feature values into the one or more therapy models, etc.), supplementary data (e.g., prior knowledge associated with therapies such as in relation to microorganism-related metabolization; user medical history; user demographic data, such as describing demographic characteristics; etc.), and/or any other suitable data. However, processing therapy models can be based on any suitable data in any suitable manner.

Sleep-related characterization models can include one or more therapy models. In an example, determining one or more sleep-related characterizations (e.g., for one or more users, for one or more sleep-related conditions, etc.), can include determining one or more therapies, such as based on one or more therapy models (e.g., applying one or more therapy models, etc.) and/or other suitable data (e.g., microbiome features such as user microbiome features, microorganism dataset such as user microorganism datasets, etc.). In a specific example, determining one or more sleep-related characterizations can include determining a first sleep-related characterization for a user (e.g., describing propensity for one or more sleep-related conditions; etc.); and determining a second sleep-related characterization for the user based on the first sleep-related characterization (e.g., determining one or more therapies, such as for recommendation to a user, based on the propensity for one or more sleep-related conditions; etc.). In a specific example, a sleep-related characterization can include both propensity-related data (e.g., diagnostic data; associated microbiome composition, function, diversity, and/or other characteristics; etc.) and therapy-related data (e.g., recommended therapies; potential therapies; etc.). However, sleep-related characterizations can include any suitable data (e.g., any combination of data described herein, etc.).

Processing therapy models can include processing a plurality of therapy models. For example, different therapy models can be processed for different therapies (e.g., different models for different individual therapies; different models for different combinations and/or categories of therapies, such as a first therapy model for determining consumable therapies and a second therapy model for determining psychological-associated therapies; etc.). In an example, different therapy models can be processed for different sleep-related conditions, (e.g., different models for different individual sleep-related conditions; different models for different combinations and/or categories of sleep-related conditions, such as a first therapy model for determining therapies for insomnias, and a second therapy model for determining therapies for hypersomnias, etc.). Additionally or alternatively, processing a plurality of therapy models can be performed for (e.g., based on; processing different therapy models for; etc.) any suitable types of data and/or entities. However, processing a plurality of therapy models can be performed in any suitable manner, and determining and/or applying one or more therapy models can be performed in any suitable manner.

4.4 Processing a User Biological Sample.

The method 100 can additionally or alternatively include Block S150, which can include processing one or more biological samples from a user (e.g., biological samples from different collection sites of the user, etc.). Block S150 can function to facilitate generation of a microorganism dataset for a user, such as for use in deriving inputs for the characterization process (e.g., for generating a sleep-related characterization for the user, such as through applying one or more sleep-related characterization models, etc.). As such, Block S150 can include receiving, processing, and/or analyzing one or more biological samples from one or more users (e.g., multiple biological samples for the same user over time, different biological samples for different users, etc.). In Block S150, the biological sample is preferably generated from the user and/or an environment of the user in a non-invasive manner. In variations, non-invasive manners of sample reception can use any one or more of: a permeable substrate (e.g., a swab configured to wipe a region of a user's body, toilet paper, a sponge, etc.), a non-permeable substrate (e.g., a slide, tape, etc.) a container (e.g., vial, tube, bag, etc.) configured to receive a sample from a region of a user's body, and any other suitable sample-reception element. In a specific example, the biological sample can be collected from one or more of the user's nose, skin, genitals, mouth, and gut (e.g., through stool samples, etc.) in a non-invasive manner (e.g., using a swab and a vial). However, the biological sample can additionally or alternatively be received in a semi-invasive manner or an invasive manner. In variations, invasive manners of sample reception can use any one or more of: a needle, a syringe, a biopsy element, a lance, and any other suitable instrument for collection of a sample in a semi-invasive or invasive manner. In specific examples, samples can include blood samples, plasma/serum samples (e.g., to enable extraction of cell-free DNA), and tissue samples.

In the above variations and examples, the biological sample can be taken from the body of the user without facilitation by another entity (e.g., a caretaker associated with a user, a health care professional, an automated or semi-automated sample collection apparatus, etc.), or can alternatively be taken from the body of the user with the assistance of another entity. In one example, where the biological sample is taken from the user without facilitation by another entity in the sample extraction process, a sample-provision kit can be provided to the user. In the example, the kit can include one or more swabs for sample acquisition, one or more containers configured to receive the swab(s) for storage, instructions for sample provision and setup of a user account, elements configured to associate the sample(s) with the user (e.g., barcode identifiers, tags, etc.), and a receptacle that allows the sample(s) from the user to be delivered to a sample processing operation (e.g., by a mail delivery system). In another example, where the biological sample is extracted from the user with the help of another entity, one or more samples can be collected in a clinical or research setting from the user (e.g., during a clinical appointment). The biological sample can, however, be received from the user in any other suitable manner.

Furthermore, processing and analyzing biological samples (e.g., to generate a user microorganism dataset; etc.) from the user is preferably performed in a manner similar to that of one of the embodiments, variations, and/or examples of sample reception described in relation to Block 110 above, and/or any other suitable portions of the method 100 and/or system 200. As such, reception and processing of the biological sample in Block S150 can be performed for the user using similar processes as those for receiving and processing biological samples used to perform the characterization processes of the method 100, such as in order to provide consistency of process. However, biological sample reception and processing in Block S150 can additionally or alternatively be performed in any other suitable manner.

4.5 Determining a Sleep-Related Characterization.

The method 100 can additionally or alternatively include Block S160, which can include determining, with one or more characterization processes (e.g., one or more characterization processes described in relation to Block S130, etc.), a sleep-related characterization for the user, such as based upon processing one or more microorganism dataset (e.g., user microorganism sequence dataset, microbiome composition dataset, microbiome functional diversity dataset; processing of the microorganism dataset to extract user microbiome features that can be used to determine the one or more sleep-related characterizations; etc.) derived from the biological sample of the user. Block S160 can function to characterize one or more sleep-related conditions for a user, such as through extracting features from microbiome-derived data of the user, and using the features as inputs into an embodiment, variation, or example of the characterization process described in Block S130 above (e.g., using the user microbiome feature values as inputs into a microbiome-related condition characterization model, etc.). In an example, Block S160 can include generating a sleep-related characterization for the user based on user microbiome features and a sleep-related condition model (e.g., generated in Block S130). Sleep-related characterizations can be for any number and/or combination of sleep-related conditions (e.g., a combination of sleep-related conditions, a single sleep-related condition, and/or other suitable sleep-related conditions; etc.), users, collection sites, and/or other suitable entities. Sleep-related characterizations can include one or more of: diagnoses (e.g., presence or absence of a sleep-related condition; etc.); risk (e.g., risk scores for developing and/or the presence of a sleep-related condition; information regarding sleep-related characterizations (e.g., symptoms, signs, triggers, associated conditions, etc.); comparisons (e.g., comparisons with other subgroups, populations, users, historic health statuses of the user such as historic microbiome compositions and/or functional diversities; comparisons associated with sleep-related conditions; etc.); therapy determinations; other suitable outputs associated with characterization processes; and/or any other suitable data.

In another variation, a sleep-related characterization can include a microbiome diversity score (e.g., in relation to microbiome composition, function, etc.) associated with (e.g., correlated with; negatively correlated with; positively correlated with; etc.) a microbiome diversity score correlated with one or more sleep-related conditions. In examples, the sleep-related characterization can include microbiome diversity scores over time (e.g., calculated for a plurality of biological samples of the user collected over time), comparisons to microbiome diversity scores for other users, and/or any other suitable type of microbiome diversity score. However, processing microbiome diversity scores (e.g., determining microbiome diversity scores; using microbiome diversity scores to determine and/or provide therapies; etc.) can be performed in any suitable manner.

Determining a sleep-related characterization in Block S160 preferably includes determining features and/or combinations of features associated with the microbiome composition and/or functional features of the user (e.g., determining feature values associated with the user, the feature values corresponding to microbiome features determined in Block S130, etc.), inputting the features into the characterization process, and receiving an output that characterizes the user as belonging to one or more of: a behavioral group, a gender group, a dietary group, a disease-state group, and any other suitable group capable of being identified by the characterization process. Block S160 can additionally or alternatively include generation of and/or output of a confidence metric associated with the characterization of the user. For instance, a confidence metric can be derived from the number of features used to generate the characterization, relative weights or rankings of features used to generate the characterization, measures of bias in the characterization process, and/or any other suitable parameter associated with aspects of the characterization process. However, leveraging user microbiome features can be performed in any suitable manner to generate any suitable sleep-related characterizations.

In some variations, features extracted from the microorganism dataset of the user can be supplemented with supplementary features (e.g., extracted from supplementary data collected for the user; such as survey-derived features, medical history-derived features, sensor data, etc.), where such data, the user microbiome data, and/or other suitable data can be used to further refine the characterization process of Block S130, Block S160, and/or other suitable portions of the method 100.

Determining a sleep-related characterization preferably includes extracting and applying user microbiome features (e.g., user microbiome composition diversity features; user microbiome functional diversity features; etc.) for the user (e.g., based on a user microorganism dataset), characterization models, and/or other suitable components, such as by employing processes described in Block S130, and/or by employing any suitable approaches described herein.

In variations, as shown in FIG. 6, Block S160 can include presenting sleep-related characterizations (e.g., information extracted from the characterizations; as part of facilitating therapeutic intervention; etc.), such as at a web interface, a mobile application, and/or any other suitable interface, but presentation of information can be performed in any suitable manner. However, the microorganism dataset of the user can additionally or alternatively be used in any other suitable manner to enhance the models of the method 100, and Block S160 can be performed in any suitable manner.

4.6 Facilitating Therapeutic Intervention.

As shown in FIG. 9, the method 100 can additionally or alternatively include Block S170, which can include facilitating therapeutic intervention (e.g., promoting therapies, providing therapies, facilitating provision of therapies, etc.) for one or more sleep-related conditions for one or more users (e.g., based upon a sleep-related characterization and/or a therapy model). Block S170 can function to recommend, promote, provide, and/or otherwise facilitate therapeutic intervention in relation to one or more therapies for a user, such as to shift the microbiome composition and/or functional diversity of a user toward a desired equilibrium state (and/or otherwise improving a state of the sleep-related condition, etc.) in relation to one or more sleep-related conditions. Block S170 can include provision of a customized therapy to the user according to their microbiome composition and functional features, where the customized therapy can include a formulation of microorganisms configured to correct dysbiosis characteristic of users having the identified characterization. As such, outputs of Block S140 can be used to directly promote a customized therapy formulation and regimen (e.g., dosage, usage instructions) to the user based upon a trained therapy model. Additionally or alternatively, therapy provision can include recommendation of available therapeutic measures configured to shift microbiome composition and/or functional features toward a desired state. In variations, therapies can include any one or more of: consumables, topical therapies (e.g., lotions, ointments, antiseptics, etc.), medication (e.g., medications associated with any suitable medication type and/or dosage, etc.), bacteriophages, environmental treatments, behavioral modification (e.g., diet modification therapies, stress-reduction therapies, physical activity-related therapies, etc.), diagnostic procedures, other medical-related procedures, and/or any other suitable therapies associated with sleep-related conditions. Consumables can include any one or more of: food and/or beverage items (e.g., probiotic and/or prebiotic food and/or beverage items, etc.), nutritional supplements (e.g., vitamins, minerals, fiber, fatty acids, amino acids, prebiotics, probiotics, etc.), consumable medications, and/or any other suitable therapeutic measure.

For example, a combination of commercially available probiotic supplements can include a suitable probiotic therapy for the user according to an output of the therapy model. In another example, the method 100 can include determining a sleep-related condition risk for the user for the sleep-related condition based on a sleep-related condition model (e.g., and/or user microbiome features); and promoting a therapy to the user based on the sleep-related condition risk.

In a variation, facilitating therapeutic intervention can include promoting a diagnostic procedure (e.g., for facilitating detection of sleep-related conditions, which can motivate subsequent promotion of other therapies, such as for modulation of a user microbiome for improving a user health state associated with one or more sleep-related conditions; etc.). Diagnostic procedures can include any one or more of: medical history analyses, imaging examinations, cell culture tests, antibody tests, skin prick testing, patch testing, blood testing, challenge testing, performing portions of the method 100, and/or any other suitable procedures for facilitating the detecting (e.g., observing, predicting, etc.) of sleep-related conditions. Additionally or alternatively, diagnostic device-related information and/or other suitable diagnostic information can be processed as part of a supplementary dataset (e.g., in relation to Block S120, where such data can be used in determining and/or applying characterization models, therapy models, and/or other suitable models; etc.), and/or collected, used, and/or otherwise processed in relation to any suitable portions of the method 100 (e.g., administering diagnostic procedures for users for monitoring therapy efficacy in relation to Block S180; etc.)

In another variation, Block S170 can include promoting a bacteriophage-based therapy. In more detail, one or more populations (e.g., in terms of colony forming units) of bacteriophages specific to a certain bacteria (or other microorganism) represented in the user can be used to down-regulate or otherwise eliminate populations of the certain bacteria. As such, bacteriophage-based therapies can be used to reduce the size(s) of the undesired population(s) of bacteria represented in the user. Complementarily, bacteriophage-based therapies can be used to increase the relative abundances of bacterial populations not targeted by the bacteriophage(s) used.

In another variation, facilitating therapeutic intervention (e.g., providing therapies, etc.) can include provision of notifications to a user regarding the recommended therapy, other forms of therapy, sleep-related characterizations, and/or other suitable data. In a specific example, providing a therapy to a user can include providing therapy recommendations (e.g., substantially concurrently with providing information derived from a sleep-related characterization for a user; etc.) and/or other suitable therapy-related information (e.g., therapy efficacy; comparisons to other individual users, subgroups of users, and/or populations of users; therapy comparisons; historic therapies and/or associated therapy-related information; psychological therapy guides such as for cognitive behavioral therapy; etc.), such as through presenting notifications at a web interface (e.g., through a user account associated with and identifying a user; etc.). Notifications can be provided to a user by way of an electronic device (e.g., personal computer, mobile device, tablet, wearable, head-mounted wearable computing device, wrist-mounted wearable computing device, etc.) that executes an application, web interface, and/or messaging client configured for notification provision. In one example, a web interface of a personal computer or laptop associated with a user can provide access, by the user, to a user account of the user, where the user account includes information regarding the user's sleep-related characterization, detailed characterization of aspects of the user's microbiome (e.g., in relation to correlations with sleep-related conditions; etc.), and/or notifications regarding suggested therapeutic measures (e.g., generated in Blocks S140 and/or S170, etc.). In another example, an application executing at a personal electronic device (e.g., smart phone, smart watch, head-mounted smart device) can be configured to provide notifications (e.g., at a display, haptically, in an auditory manner, etc.) regarding therapy suggestions generated by the therapy model of Block S170. Notifications and/or probiotic therapies can additionally or alternatively be provided directly through an entity associated with a user (e.g., a caretaker, a spouse, a significant other, a healthcare professional, etc.). In some further variations, notifications can additionally or alternatively be provided to an entity (e.g., healthcare professional) associated with a user, such as where the entity is able to facilitate provision of the therapy (e.g., by way of prescription, by way of conducting a therapeutic session, through a digital telemedicine session using optical and/or audio sensors of a computing device, etc.). Providing notifications and/or otherwise facilitating therapeutic, however, be performed in any suitable manner.

4.7 Monitoring Therapy Effectiveness.

As shown in FIG. 7, the method can additionally or alternatively include Block S180, which can include: monitoring effectiveness of one or more therapies and/or monitoring other suitable components (e.g., microbiome characteristics, etc.) for the user (e.g., based upon processing a series of biological samples from the user), over time. Block S180 can function to gather additional data regarding positive effects, negative effects, and/or lack of effectiveness of one or more therapies (e.g., suggested by the therapy model for users of a given characterization, etc.) and/or monitoring microbiome characteristics (e.g., to assess microbiome composition and/or functional features for the user at a set of time points, etc.).

Monitoring of a user during the course of a therapy promoted by the therapy model (e.g., by receiving and analyzing biological samples from the user throughout therapy, by receiving survey-derived data from the user throughout therapy) can thus be used to generate a therapy-effectiveness model for each characterization provided by the characterization process of Block S130, and each recommended therapy measure provided in Blocks S140 and S170.

In Block S180, the user can be prompted to provide additional biological samples, supplementary data, and/or other suitable data at one or more key time points of a therapy regimen that incorporates the therapy, and the additional biological sample(s) can be processed and analyzed (e.g., in a manner similar to that described in relation to Block S120) to generate metrics characterizing modulation of the user's microbiome composition and/or functional features. For instance, metrics related to one or more of: a change in relative abundance of one or more taxonomic groups represented in the user's microbiome at an earlier time point, a change in representation of a specific taxonomic group of the user's microbiome, a ratio between abundance of a first taxonomic group of bacteria and abundance of a second taxonomic group of bacteria of the user's microbiome, a change in relative abundance of one or more functional families in a user's microbiome, and any other suitable metrics can be used to assess therapy effectiveness from changes in microbiome composition and/or functional features. Additionally or alternatively, survey-derived data from the user, pertaining to experiences of the user while on the therapy (e.g., experienced side effects, personal assessment of improvement, behavioral modifications, symptom improvement, etc.) can be used to determine effectiveness of the therapy in Block S180. For example, the method 100 can include receiving a post-therapy biological sample from the user; collecting a supplementary dataset from the user, where the supplementary dataset describes user adherence to a therapy (e.g., a determined and promoted therapy) and/or other suitable user characteristics (e.g., behaviors, conditions, etc.); generating a post-therapy sleep-related characterization of the first user in relation to the sleep-related condition based on the sleep-related characterization model and the post-therapy biological sample; and promoting an updated therapy to the user for the sleep-related condition based on the post-therapy sleep-related characterization (e.g., based on a comparison between the post-therapy sleep-related characterization and a pre-therapy sleep-related characterization; etc.) and/or the user adherence to the therapy (e.g., modifying the therapy based on positive or negative results for the user microbiome in relation to the sleep-related condition; etc.). Additionally or alternatively, other suitable data (e.g., supplementary data describing user behavior associated with one or more sleep-related conditions; supplementary data describing a sleep-related condition such as observed symptoms; etc.) can be used in determining a post-therapy characterization (e.g., degree of change from pre- to post-therapy in relation to the sleep-related condition; etc.), updated therapies (e.g., determining an updated therapy based on effectiveness and/or adherence to the promoted therapy, etc.).

In an example, the method 100 can include collecting first sleep-tracking data (e.g., at least one of first survey-derived data and first device data) and/or other suitable supplementary, where the first sleep-tracking data is associated with sleep quality of the user; determining the sleep-related characterization for the user based on the user microbiome features and the first sleep-tracking data; facilitating therapeutic intervention based on the sleep-related characterization; collecting a post-therapy biological sample from the user; collecting second sleep-tracking data (e.g., including at least one of second survey-derived data and second device data; etc.) and/or other suitable supplementary data, where the second sleep-tracking data is associated with the sleep quality of the user; and determining a post-therapy sleep-related characterization for the user for the sleep-related condition based on the second sleep-tracking data and post-therapy microbiome features associated with the post-therapy biological sample. In the example, the method 100 can include facilitating therapeutic intervention in relation to an updated therapy (e.g., a modification of the therapy; a different therapy; etc.) for the user for improving the sleep-related condition, based on the post-therapy sleep-related characterization, such as where the updated therapy can include at least one of a consumable, a device-related therapy, a surgical operation, a psychological-associated therapy, a behavior modification therapy, and an environmental factor modification therapy. In the example determining the post-therapy sleep-related characterization can include determining a comparison between microbiome characteristics of the user and reference microbiome characteristics corresponding to a user subgroup sharing at least one of a behavior and an environmental factor (and/or other suitable characteristic) associated with the sleep-related condition, based on the post-therapy microbiome features, and where facilitating therapeutic intervention in relation to the updated therapy can include presenting the comparison to the user for facilitating at least one of the behavior modification therapy and the environmental factor modification therapy and/or other suitable therapies. However, Block S180 can be performed in relation to additional biological samples, additional supplementary data, and/or other suitable additional data in any suitable manner.

Therapy effectiveness, processing of additional biological samples (e.g., to determine additional sleep-related characterizations, therapies, etc.), and/or other suitable aspects associated with continued biological sample collection, processing, and analysis in relation to sleep-related conditions can be performed at any suitable time and frequency for generating, updating, and/or otherwise processing models (e.g., characterization models, therapy models, etc.), and/or for any other suitable purpose (e.g., as inputs associated with other portions of the method 100). However, Block S180 can be performed in any suitable manner.

The method 100 can, however, include any other suitable blocks or steps configured to facilitate reception of biological samples from subjects, processing of biological samples from subjects, analyzing data derived from biological samples, and generating models that can be used to provide customized diagnostics and/or probiotic-based therapeutics according to specific microbiome compositions and/or functional features of subjects.

Embodiments of the system 200 and/or method 100 can include every combination and permutation of the various system components and the various method processes, including any variants (e.g., embodiments, variations, examples, specific examples, figures, etc.), where portions of the method 100 and/or processes described herein can be performed asynchronously (e.g., sequentially), concurrently (e.g., in parallel), or in any other suitable order by and/or using one or more instances, elements, components of, and/or other aspects of the system 200 and/or other entities described herein.

Any of the variants described herein (e.g., embodiments, variations, examples, specific examples, figures, etc.) and/or any portion of the variants described herein can be additionally or alternatively combined, aggregated, excluded, used, and/or otherwise applied.

The system 200 and/or method 100 and/or variants thereof can be embodied and/or implemented at least in part as a machine configured to receive a computer-readable medium storing computer-readable instructions. The instructions are preferably executed by computer-executable components preferably integrated with the system. The computer-readable medium can be stored on any suitable computer-readable media such as RAMs, ROMs, flash memory, EEPROMs, optical devices (CD or DVD), hard drives, floppy drives, or any suitable device. The computer-executable component is preferably a general or application specific processor, but any suitable dedicated hardware or hardware/firmware combination device can alternatively or additionally execute the instructions.

As a person skilled in the art will recognize from the previous detailed description and from the figures and claims, modifications and changes can be made to the system 200, method 100, and/or variants without departing from the scope defined in the following claims.

TABLE 1 Taxa associated with individuals with sleep-related condition of bad sleep quality, where the first through fourth columns are a set corresponding to each other, the fifth through eighth columns are a set corresponding to each other, and the ninth through twelfth columns are a set corresponding to each other. Column header “s” corresponds to site (“g” corresponds to gut, “ge” corresponds to genitals”, “n” corresponds to nose, “s” corresponds to skin, “m” corresponds to mouth”); column header “n” corresponds to taxon name; column header “r” corresponds to taxon rank (“f” corresponds to family, “g” corresponds to genus, “s” corresponds to species, “p” corresponds to phylum, “c” corresponds to class, “o” corresponds to order); column header “c” corresponds to correlation (“+” corresponds to correlation and/or other association with control group individuals (good sleep quality); “−” corresponds to correlation and/or other association with condition group individuals (bad sleep quality)). s n r c s n r c s n r c g Bacteroidaceae f + g Anaerobacter g − n Sphingomonas s − sp. 540 g Bacteroides g + g Cryobacterium g + n Corynebacterium s − epidermidicanis g Bacteroides s − g Enterococcus s − n Mesorhizobium s + thetaiotaomicron raffinosus sp. mat916 g Bacteroides s + g Helicobacteraceae f + n Actinomyces sp. s − uniformis ICM58 g Bacteroides s − g Elusimicrobia p + n Megasphaera sp. s − vulgatus BV3C16-1 g Roseburia g + g Desulfovibrio sp. s − n Sphingobium sp. s − UNSW3caefatS LC341 g Faecalibacterium s − g Pseudomonas s − n Anaerococcus sp. s − prausnitzii monteilii PH9 g Desulfovibrio g + g Bifidobacterium s + n Leptotrichiaceae f + merycicum g Desulfovibrio sp. s − g Bifidobacterium s − n Faecalibacterium s + pullorum sp. canine oral taxon 147 g Bacteroidetes p + g Leuconostocaceae f + n Murdochiella g + g Proteobacteria p + g Anaerovibrio g − n Lachnoanaerobaculum g − g Firmicutes p − g Anaerosinus s − n Streptococcus sp. s + glycerini GMD6S g Sarcina g − g Aeromonadaceae f + n Varibaculum sp. s + CCUG 45114 g Streptococcaceae f + g Papillibacter g − n Dermabacter sp. s + HFH0086 g Streptococcus g + g Coprobacillus g − n Propionibacterium s − sp. KPL2005 g Clostridium g + g Anaerostipes s + n Stomatobaculum g + caccae g Actinobacteria c + g Parasporobacterium s − n Actinomyces sp. s − paucivorans S4-C9 g Lachnospira g − g Bifidobacterium s − n Atopobium sp. s + sp. 65947 S3PFAA1-4 g Lachnospira s − g Campylobacter s + n Atopobium sp. s − pectinoschiza faecalis S4-A11a g Betaproteobacteria c − g Oscillospira s + n Gardnerella sp. s + guilliermondii S3PF20 g Deltaproteobacteria c + g Fusobacterium s + n Prevotella sp. S4- s + equinum 10 g Asaccharospora s − g Aeromonadales o − n Corynebacterium s − irregularis sp. jw37 g Clostridiaceae f − g Bacillus sp. HC15 s + n Streptococcus sp. s − 2011_Oral_MS_A3 g Phascolarctobacterium g − g Weissella cibaria s − n Veillonella sp. s − 2011_Oral_VSA_D3 g Phascolarctobacterium s + g Brachyspiraceae f + n Alloprevotella g − faecium g Lactobacillaceae f + g Collinsella s − n Dialister sp. s − intestinalis S7MSR5 g Dorea s − g Anaerosinus g − n Stenotrophomonas s + formicigenerans sp. N017 g Sutterella g − g Dysgonomonas g + n Bradyrhizobium s + sp. CCBAU 53380 g Pseudobutyrivibrio g − g Bifidobacterium s − n Anaerococcus sp. s − scardovii S8 87-3 g Bacteroides s + g Enterococcus s − n Anaerococcus sp. s + caccae pallens S8 F2 g Verrucomicrobiales o − g Leuconostoc inhae s + n Finegoldia sp. S9 s + AA1-5 g Holdemania g + g Blautia schinkii s − n Murdochiella sp. s + S9 PR-10 g Holdemania s + g Acholeplasmatales o + n Peptoniphilus sp. s − filiformis S9 PR-13 g Fibrobacteres p − g Eubacteriaceae f − n Corynebacterium s − sp. 713182/2012 g Verrucomicrobia p − g Thermoanaerobacteraceae f + n Ralstonia sp. A52 s − g Burkholderiales o − g Planococcaceae f + n Staphylococcus s − sp. 3348O2 g Coriobacteriaceae f − g Gelria g + n Senegalimassilia g + g Eggerthella g + g Sedimentibacter g + n Peptoniphilus sp. s + DNF00840 g Coriobacteriia c − g Anaerofustis s + n Romboutsia g + stercorihominis g Coriobacteriales o − g Corynebacterium s + n Veillonella s + ciconiae seminalis g Bacteroides s + g Eggerthella s − n Terrisporobacter g − acidifaciens sinensis g Blautia luti s − g Slackia faecicanis s − n Peptoniphilaceae f − g Bacilli c + g Acetanaerobacterium g − n Tissierellia c − g Bacteroides sp. s + g Anaerosporobacter s − n Tissierellales o − AR20 mobilis g Bacteroides sp. s + g Anaerofustis g + n Veillonellales o + AR29 g Collinsella g − g Lactobacillus s + n Selenomonadaceae f kefiranofaciens g Oscillospira g + g Veillonella sp. ADV s + n Spirochaetales o − 269.01 g Erysipelotrichaceae f + g Catabacter g − n Deinococcus g + g Roseburia s + g Catabacter s + n Lactococcus g − intestinalis hongkongensis g Bacteroidales o + g Pseudoclavibacter s + n Deinococcaceae f + bifida g Rikenellaceae f + g Bacteroides sp. s + n Spirochaetes p − Smarlab 3301643 g Shuttleworthia g + g Anaerolineaceae f + n Spirochaetia c − g Clostridia c − g Anaerolineales o + n Campylobacter s + showae g Clostridiales o − g Proteiniphilum g + n Comamonas g − g Lachnospiraceae f − g Streptococcus sp. s − n Neisseria s S16-11 flavescens g Peptostreptococcaceae f + g Bacteroides sp. s − n Neisseria canis s + WH302 g Lactobacillales o + g Bacteroides sp. s − n Eikenella s + 4072 corrodens g Dorea g − g Alistipes s − n Aggregatibacter s − onderdonkii aphrophilus g Desulfovibrionaceae f + g Mitsuokella sp. s + n Aggregatibacter s − TM-10 segnis g Bacteroidia c + g Oscillibacter s − n Rodentibacter s + valericigenes pneumotropicus g Actinobacteria p + g Bifidobacterium s + n Cardiobacteriaceae f + tsurumiense g Verrucomicrobiae c − g Megasphaera sp. s − n Selenomonas g − TrE9262 g Verrucomicrobiaceae f − g Anaerococcus sp. s + n Capnocytophaga g − gpac137 g Fibrobacteria c − g Lactococcus sp. D2 s − n Capnocytophaga s − gingivalis g Fibrobacteraceae f − g Weissella sp. H1a s − n Capnocytophaga s − ochracea g Anaerostipes g − g Barnesiella s + n Capnocytophaga s − viscericola sputigena g Desulfovibrionales o + g Pediococcus sp. s − n Cyanobacteria p − MFC1 g Oscillospiraceae f + g Cronobacter s + n Streptococcus s + dublinensis mutans g Faecalibacterium g − g Cronobacter s + n Atopobium rimae s + turicensis g Fibrobacterales o − g Elusimicrobium g + n Lactobacillus s + paracasei g Alistipes g − g Catabacteriaceae f − n Actinomyces s − viscosus g Akkermansia g − g Cellulosilyticum s + n Bifidobacterium s + ruminicola adolescentis g Akkermansia s − g Bacteroides sp. s + n Pseudopropionibacterium s + muciniphila CB57 propionicum g Hespellia g + g Paraprevotella s + n Cardiobacterium g + xylaniphila g Anaerotruncus g + g Bacteroides sp. s + n Cardiobacterium s + 3_1_23 hominis g Marvinbryantia g − g Parabacteroides sp. s + n Tannerella s − 20_3 forsythia g Subdoligranulum g − g Nosocomiicoccus g − n Porphyromonas s − endodontalis g Flavonifractor s + g Nosocomiicoccus s − n Prevotella s − plautii ampullae intermedia g Bacteroides s − g Megamonas s − n Prevotella s + finegoldii rupellensis nigrescens g Roseburia s + g Butyricicoccus s + n Prevotella oris s − inulinivorans pullicaecorum g Blautia wexlerae s − g Cloacibacterium s + n Prevotella s − rupense oulorum g Lactonifactor g + g Fusobacterium sp. s + n Dolosigranulum g + DJF_B100 g Moryella g + g Mitsuokella sp. s + n Dolosigranulum s − DJF_RR21 pigrum g Adlercreutzia s − g Roseburia sp. s − n Acetitomaculum g − equolifaciens DJF_RR73 g Adlercreutzia g − g Gracilibacteraceae f + n Terrisporobacter s − glycolicus g Erysipelotrichia c + g Pantoea sp. s − n Leptotrichia s − CWB304 buccalis g Erysipelotrichales o + g Butyricimonas s − n Porphyromonas s − synergistica catoniae g Ruminococcaceae f − g Selenomonas sp. s + n Corynebacterium s − Ycbo8 matruchotii g Clostridiales f f + g Asaccharobacter g + n Catonella g − XIII. Incertae Sedis g Blautia g − g Coprobacillus sp. s − n Catonella morbi s − D6 g Roseburia sp. s + g Bifidobacterium s + n Filifactor g − 11SE39 sp. 138 g Bacteroides sp. s − g Bacteroides sp. S- s + n Actinomyces s − D22 17 georgiae g Alistipes sp. s + g Butyricicoccus g + n Actinomyces s + RMA 9912 gerencseriae g Blautia faecis s − g Bacteroides sp. s − n Acidobacteria p + D20 g Selenomonadales o + g Hydrogenoanaerobacterium g + n Prevotella pallens s g Acidaminococcaceae f − g Bacteroides fluxus s − n Corynebacterium s + durum g Negativicutes c + g Bacteroides s − n Alloprevotella s − oleiciplenus tannerae g Eggerthella sp. s + g Slackia piriformis s − n Centipeda g − HGA1 g Flavonifractor g + g Collinsella s − n Centipeda s − tanakaei periodontii g Sutterellaceae f − g Christensenella s + n Eggerthella lenta s + minuta g Anaerostipes sp. s − g Succinatimonas s + n Cryptobacterium g + 5_1_63FAA hippei g Fusicatenibacter s − g Desulfovibrio sp. s − n Cryptobacterium s + saccharivorans G11 curtum g Intestinimonas g + g Pyramidobacter s − n Rothia sp. CCUG s − piscolens 25688 g Fusicatenibacter g + g Lactobacillus sp. s + n Mogibacterium s − S16 pumilum g Candidatus g + g Elusimicrobia c + n Pseudoflavonifractor s + Soleaferrea capillosus g Peptoclostridium g + g Elusimicrobiales o + n Sphingobacteriia c + g Asaccharospora g − g Elusimicrobiaceae f + n Cardiobacteriales o + g Erysipelatoclostridium g − g Bacteroides sp. TP-5 s − n Filifactor alocis s − g Flavobacterium g − g Anaerostipes s − n Turicibacter s + butyraticus sanguinis g Enterobacteriaceae f + g Aeromonas sp. B11 s + n Leptotrichia s + wadei g Kluyvera g + g Parabacteroides sp. s − n Leptotrichia s + D25 shahii g Pasteurellaceae f + g Desulfovibrio sp. s + n Rothia aeria s + 6_1_46AFAA g Haemophilus g + g Enterorhabdus s − n Victivallis g − caecimuris g Haemophilus s + g Bacteroides faecis s − n Turicibacter g + parainfluenzae g Bacteroides s + g Succinatimonas g + n Tannerella g − fragilis g Parabacteroides s + g Blautia sp. Ser5 s − n Sphingobacteriales o + distasonis g Butyrivibrio g − g Eubacterium sp. s + n Chloroflexi p − SA11 g Porphyromonas g + g Bacteroides s − n Acidobacteriia c − rodentium g Prevotella g + g Bacteroides s + n Acidobacteriales o − chinchillae g Gammaproteobacteria c + g Cellulosilyticum g + n Selenomonas s − genomosp. P5 g Streptococcus s + g Caldicoprobacter g + n Victivallaceae f − thermophilus g Erysipelatoclostridium s + g Enterobacter sp. s − n Lentisphaerae p − ramosum UDC345 g Lactobacillus g + g Lactobacillus sp. s + n Victivallales o − TAB-26 g Corynebacteriaceae f + g Bifidobacterium s + n Capnocytophaga s − biavatii genosp. AHN8471 g Bifidobacterium g − g Megasphaera sp. s − n Capnocytophaga s + BS-4 sp. AHN10044 g Corynebacterium g + g Pseudomonas sp. s + n Capnocytophaga s + a101-18-2 sp. AHN9756 g Corynebacterium s + g Rothia sp. RV13 s + n Aggregatibacter g − sp. g Actinomycetales o + g Klebsiella sp. s − n Prevotella s − SOR89 nanceiensis g Methanobacteriales o + g Lactococcus sp. s + n Actinomyces s + MH5-2 massiliensis g Methanobacteriaceae f + g Campylobacter sp. s + n Lachnoanaerobaculum s + 0402694-C0078 saburreum g Methanobrevibacter g + g Lactobacillus sp. s − n Bacteroides sp. s − C4I2 2_2_4 g Methanobrevibacter s + g Leuconostoc sp. s + n Olsenella sp. s + smithii C7I4 F0004 g Gardnerella g + g Christensenellaceae f + n Leptotrichia s − hongkongensis g Gardnerella s + g Christensenella g + n Chitinophagaceae f + vaginalis g Peptococcus g + g Bacteroides sp. s − n Bifidobacterium s + dnLKVg stercoris g Alistipes s − g Parabacteroides sp. s − n Neisseria s + putredinis dnLKV8 shayeganii g Odoribacter s + g Bacteroides sp. s + n Rhizobium sp. s + splanchnicus HPS0048 T45 g Alphaproteobacteria c + g Anaerovibrio sp. s + n Fretibacterium s − 656 fastidiosum g Euryarchaeota p + g Anaerovibrio sp. s − n Oribacterium sp. s + 765 oral taxon 078 g Bifidobacteriaceae f − g Acidaminococcus s − n Leptotrichia sp. s + sp. BV3L6 oral taxon 225 g Mollicutes c + g Finegoldia sp. s + n Alloprevotella s + BV3C29 rava g Bilophila g − g Lactococcus sp. s − n Prevotella sp. s − STM1 WAL 2039G g Sutterella s + g Herbaspirillum sp. s + n Neisseria s + wadsworthensis YR522 skkuensis g Rhodospirillaceae f + g Phascolarctobacterium s − n Capnocytophaga s + sp. canine oral sp. oral taxon 329 taxon 149 g Butyrivibrio s − g Peptococcus sp. s + n Capnocytophaga s + crossotus canine oral taxon sp. oral taxon 338 334 g Parabacteroides s − g Proteiniclasticum g − n Actinomyces sp. s − merdae oral taxon 448 g Bacteroides s + g Bacteroides sp. s − n Streptococcus sp. s + stercoris 14(A) oral taxon G63 g Flavobacteriaceae f − g Turicibacter sp. s + n Tannerella sp. s − LA62 oral taxon HOT- 286 g Kluyvera s + g Cloacibacillus s + n Capnocytophaga s − georgiana porcorum sp. CM59 g Collinsella s + g Propionibacterium s + n Fusobacterium s + aerofaciens sp. KPL1844 sp. CM22 g Slackia g + g Butyricimonas sp. s + n Oribacterium sp. s − 180-3 CM12 g Bifidobacteriales o − g Butyricimonas sp. s − n Brevundimonas s + 214-4 sp. FXJ8.080 g Corynebacteriales o + g Olsenella sp. 1183 s + n Moraxella sp. s + WB19-16 g Dorea s − g Anaerostipes s + n Pseudomonas sp. s − longicatena rhamnosivorans KB23 g Enterobacterales o + g Butyricimonas sp. s − n Lysinibacillus sp. s + GD2 SJ2SN2 g Flavobacteriia c − g Streptococcus sp. s + n Pseudoflavonifractor g + 2011_Ileo_MS_A10 g Pasteurellales o + g Streptococcus sp. s + n Neisseria oralis s − 2011_Oral_MS_D12 g Peptoniphilus g + g Veillonella sp. s − n Actinomyces sp. s − 2011_Oral_VSA_D12 ph3 g Anaerococcus g + g Sutterella sp. 252 s − n Rothia sp. THG- s − N7 g Thalassospira g + g Roseburia sp. 499 s − n Lentisphaeria c − g Porphyromonadaceae f + g Anaerostipes sp. s − n Tessaracoccus s + 992a lapidicaptus g Prevotellaceae f + g Rahnella sp. s + n Fretibacterium g − FB303 g Methanobacteria c + g Citrobacter sp. s − n Dielma g − HD4.9 g Peptococcaceae f + g Megasphaera sp. s + n Alistipes inops s + DNF00872 g Flavobacteriales o − g Megasphaera sp. s − n Pseudomonas s − DNF00912 aeruginosa g Rhodospirillales o + g Megasphaera sp. s − n Moraxella s − S6-MB2 catarrhalis g Subdoligranulum s − g Candidatus g + n Enterobacter s + variabile Methanomethylophilus cloacae g Bifidobacterium s + g Rahnella sp. BSP18 s + n Klebsiella oxytoca s + longum g Peptoniphilus s + g Bacteroides s − n Aeromonas g − sp. 2002- caecigallinarum 2300004 g Sutterella s − g Bacteroides sp. s − n Rhodobacter g + stercoricanis C13EG172 g Odoribacter g + g Pediococcus sp. s − n Oscillatoriales o − 3107O2 g Bacteroides s + g Streptococcus sp. s + n Leuconostoc g + salyersiae 3244O2 g Parabacteroides s + g Eggerthellales o − n Leuconostoc s + goldsteinii mesenteroides g Bacteroides sp. s + g Eggerthellaceae f − n Leuconostoc s − XB12B lactis g Parabacteroides g − g Acidaminococcales o − n Leuconostoc s + carnosum g Barnesiella g − g Odoribacteraceae f + n Pediococcus g + g Howardella g + g Clostridioides g − n Weissella confusa s − g Alistipes sp. s + g Barnesiellaceae f + n Lactobacillus s + EBA6-25cl2 delbrueckii g Oscillibacter g + g Klebsiella s + n Carnobacterium g pneumoniae g Alistipes sp. s + g Aeromonas s + n Lactobacillus s + NML05A004 salmonicida curvatus g Barnesiella s + g Streptococcus s − n Bacteroides s + intestinihominis sobrinus ovatus g Parasutterella s + g Nocardioides g − n Rahnella g − excrementihominis g Porphyromonas s − g Solanaceae f + n Weissella g − bennonis g Clostridiales f f + g Acidovorax g + n Weissella s − XI. Incertae hellenica Sedis g Tenericutes p + g Variovorax g + n Raoultella s − ornithinolytica g Butyricimonas g − g Pseudomonas s + n Rhodocyclaceae f + citronellolis g Parasutterella g + g Nocardioidaceae f − n Pseudomonas s − monteilii g Bifidobacterium s − g Cytophagaceae f + n Leuconostocaceae f + kashiwanohense g Anaerosporobacter g + g Massilia g − n Aeromonadaceae f − g Corynebacterium s + g Staphylococcus s − n Fusobacterium s + canis equorum equinum Bilophila sp. s − g Cytophagia c + n Aeromonadales o − 4_1_30 g Blautia stercoris s + g Cytophagales o + n Raoultella g − g Alistipes sp. s − g Aerococcus sp. s + n Planococcaceae f − HGB5 B43(2010) g Bacteroides sp. s + g Defluviimonas g − n Corynebacterium s + SLC1-38 atypicum g Terrisporobacter g − g Yersinia g − n Acidobacteriaceae f − g Intestinibacter g + g Yersinia s − n Rhodocyclales o + enterocolitica g Lactococcus g − g Bacillus cereus s − n Pseudoclavibacter s + bifida g Bacteroides sp. s + g Planomicrobium g + n Paucibacter g + XB44A g Phascolarctobacterium s − g Rothia sp. BBH4 s − n Cloacibacterium s − succinatutens rupense g Asteroleplasma g − g Clostridiales f XII. f + n Acinetobacter sp. s + Incertae Sedis 423D g Acetitomaculum g + g Arthrospira g + n Pantoea gaviniae s − g Terrisporobacter s − g Variovorax sp. s + n Bacillus sp. DHT- s − glycolicus TA_DQ 33 g Bifidobacterium s + g Streptococcus s − n Lactobacillus sp. s + sp. australis TAB-26 g Turicibacter s + g Spirochaetaceae f + n Pseudomonas sp. s − sanguinis a101-18-2 g Victivallis g + g Providencia g − n Lactococcus sp. s − MH5-2 g Anaeroplasmatales o + g Salmonella g + n Pseudomonas sp. s − CBMAI 1177 g Anaeroplasmataceae f + g Leuconostoc s + n Propionibacterium s + gelidum sp. KPL1844 g Turicibacter g + g Streptococcus suis s − n Streptococcus sp. s + 2011_Ileo_MS_A10 R Victivallaceae f + g Enterococcus s − n Rahnella sp. s − faecium BSP18 R Lentisphaerae p + g Enterococcus s + n Myxococcales o + gallinarum R Victivallales o + g Lactococcus s + n Lysobacter g − raffinolactis g Bacteroides s + g Bacillus subtilis s + n Caulobacter g nordii g Howardella s + g Salmonella s + n Planctomycetales o + ureilytica enterica g Bacteroides sp. s − g Peptoniphilus s + n Planctomycetaceae f + 2_2_4 indolicus g Gordonibacter s + g Lactobacillus s − n Brevundimonas s − pamelaeae pontis diminuta g Bacteroides sp. s − g Corynebacterium s + n Xanthomonas s + DJF_B097 vitaeruminis campestris g Butyricimonas s − g Helcococcus kunzii s + n Acetobacteraceae f + virosa g Anaerotruncus s + g Desulfovibrio s + n Acinetobacter s − sp. NML 070203 fairfieldensis baumannii g Robinsoniella g + g Brachyspira s + n Moraxella s + pilosicoli nonliquefaciens g Bifidobacterium s − g Desulfovibrio s − n Psychrobacter g − stercoris intestinalis g Gordonibacter g + g Deinococcus s + n Klebsiella s − geothermalis pneumoniae g Caldicoprobacteraceae f − g Denitrobacterium g − n Aeromonas s + salmonicida g Lentisphaeria c + g Mannheimia s + n Alloiococcus g + varigena g Dielma g + g Dysgonomonas s − n Alloiococcus s + gadei otitis g Alistipes inops s − g Allobaculum g + n Nocardia g + g Alistipes s + g Allobaculum s + n Nocardioides g − massiliensis stercoricanis g Alistipes s − g Cetobacterium g + n Pseudonocardia g − indistinctus g Lactococcus sp. s − g Cetobacterium s + n Streptomyces g − MH5-2 somerae g Sutterella sp. s + g Paraeggerthella s + n Aeromicrobium g + 252 hongkongensis ge Bacteroidaceae f − g Desulfovibrio sp. s + n Streptomycetaceae f − LNB2 ge Bacteroides g − g Anaerostipes sp. s − n Pseudonocardiaceae f − AIP 183.04 ge Bacteroides s − g Denitratisoma g − n Brochothrix g + thetaiotaomicron ge Bacteroides s − g Bacteroides s − n Solanaceae f + uniformis barnesiae ge Bacteroides s + g Bacteroides s + n Basidiomycota p + vulgatus salanitronis ge Roseburia g + g Sphaerochaeta g + n Acidovorax g + ge Faecalibacterium s − g Puniceicoccaceae f + n Sphingobacterium g + prausnitzii ge Acidaminococcus g − g Pediococcus s − n Staphylococcus s + argentinicus saprophyticus ge Herbaspirillum g − g Slackia s + n Microlunatus g + equolifaciens ge Herbaspirillum s + g Herbaspirillum sp. s + n Cutibacterium s − seropedicae AU13035 granulosum ge Bacteroidetes p − g Vagococcus teuberi s − n Microbacterium s − lacticum ge Proteobacteria p − g Brachyspira sp. s + n Exiguobacterium g + HIS5 ge Firmicutes p + g Parabacteroides sp. s + n Variovorax g + D13 ge Sarcina g + g Enterorhabdus s + n Dietzia g + mucosicola ge Streptococcaceae f − g Paraeggerthella g + n Blastococcus g − ge Streptococcus g − g Lactobacillus sp. s + n Blastococcus s − oral taxon 052 aggregatus ge Clostridium g + g Bacteroides s + n Chlamydiales o + sartorii ge Actinobacteria c − g Lactococcus sp. s + n Pseudomonas s + TP1MJ citronellolis ge Lachnospira g + g Lactococcus sp. s + n Malassezia g + TP2MJ ge Lachnospira s + g Bacteroides sp. D-2 s − n Dermacoccus g + pectinoschiza ge Betaproteobacteria c − g Dysgonomonas s + n Brevundimonas s + oryzarvi subvibrioides ge Asaccharospora s + g Lactobacillus faecis s − n Malassezia s − irregularis restricta ge Clostridiaceae f + g Parabacteroides s + n Sphingobacteriaceae f + chinchillae ge Lactobacillaceae f + g Lactobacillus sp. s + n Rubrobacteria c − Mbohs2t7 ge Sutterella g − g Lactobacillus sp. s − n Pseudonocardiales o − Thmro2 ge Pseudobutyrivibrio g + g Bacillus sp. PrMC7 s − n Streptomycetales o − ge Verrucomicrobiales o + g Fusobacterium sp. s + n Frankiales o − CM1 ge Verrucomicrobia p + g Lactobacillus sp. s − n Nocardioidaceae f − C4I1 ge Oxalobacteraceae f − g Bacillus sp. N-16 s − n Intrasporangiaceae f + ge Burkholderiales o − g Methanosphaera s + n Dietziaceae f + cuniculi ge Coriobacteriaceae f + g Eggerthella sp. E1 s − n Geodermatophila f − ceae ge Coriobacteriia c + g Anaeroglobus sp. s + n Nakamurellaceae f S4-A15 ge Coriobacteriales o + g Murdochiella sp. s − n Facklamia s + S5-A16 tabacinasalis ge Bacteroides s + g Oscillibacter sp. 1-3 s − n Cytophagaceae f − acidifaciens ge Bacilli c + g Bacteroides sp. s + n Hymenobacter g + 2011_Ileo_VSA_D7 ge Bacteroides sp. s − g Corynebacterium s − n Acinetobacter s − AR20 sp. full20 ursingii ge Bacteroides sp. s − g Oligosphaeria c − n Dyadobacter g + AR29 ge Collinsella g + g Oligosphaerales o − n Corynebacterium s + felinum ge Oscillospira g − g Parabacteroides sp. s + n Dermacoccaceae f + J1502 ge Erysipelotrichaceae f − g Enterobacter sp. s − n Massilia g + SPSA1 ge Roseburia s + g Anaerobacterium g − n Malasseziales o + intestinalis ge Bacteroidales o − g Ruminiclostridium g + n Aurantimonas g − ge Rikenellaceae f − g Sporomusaceae f − n Sphingomonas s + aerolata ge Shuttleworthia g + g Erwiniaceae f + n Listeriaceae f + ge Clostridia c + m Bacteroidaceae f + n Dermacoccus sp. s + Ellin183 ge Clostridiales o + m Bacteroides g + n Dermacoccus sp. s + Ellin185 ge Lachnospiraceae f + m Bacteroides s − n Thermomicrobia c − uniformis ge Peptostreptococcaceae f − m Bacteroides s + n Planctomycetes p + vulgatus ge Lactobacillales o + m Roseburia g + n Planctomycetia c + ge Bacteroidia c − m Faecalibacterium s + n Chlamydiae p + prausnitzii ge Actinobacteria p − m Desulfovibrio g + n Chlamydiia c + ge Verrucomicrobiae c + m Herbaspirillum g + n Solirubrobacter g − ge Verrucomicrobiaceae f + m Herbaspirillum s + n Brachybacterium s − seropedicae muris ge Oscillospiraceae f − m Bacteroidetes p + n Gemmatimonadales o + ge Faecalibacterium g − m Proteobacteria p − n Gemmatimonadaceae f + ge Alistipes g − m Firmicutes p + n Kocuria marina s − ge Akkermansia g + m Sarcina g + n Jeotgalicoccus g + ge Akkermansia s + m Streptococcaceae f − n Staphylococcus s − muciniphila equorum ge Anaerotruncus g − m Streptococcus g − n Aurantimonadaceae f − ge Marvinbryantia g + m Clostridium g + n Rubellimicrobium g − ge Flavonifractor s − m Actinobacteria c − n Burkholderia sp. s + plautii CBPB-HIM ge Bacteroides s − m Lachnospira g + n Sphingomonas s + finegoldii oligophenolica ge Moryella g + m Lachnospira s + n Solirubrobacteraceae f − pectinoschiza ge Adlercreutzia s + m Betaproteobacteria c − n Trueperaceae f − equolifaciens ge Adlercreutzia g + m Deltaproteobacteria c + n Truepera g − ge Erysipelotrichia c − m Asaccharospora s + n Methylobacterium s + irregularis adhaesivum ge Erysipelotrichales o − m Veillonellaceae f − n Patulibacteraceae f + ge Ruminococcaceae f + m Clostridiaceae f + n Actinomycetospora g + ge Clostridiales f f − m Phascolarctobacterium g + n Acinetobacter sp. s − XIII. Incertae RBE2CD-76 Sedis ge Acidaminococcus s − m Phascolarctobacterium s + n Exobasidiomycetes c + sp. D21 faecium ge Blautia g + m Lactobacillaceae f − n Dermacoccus sp. s + SST-20 ge Roseburia sp. s + m Dorea s + n Methylobacterium s + 11SE39 formicigenerans sp. Gh-143 ge Alistipes sp. s + m Sutterella g + n Moraxella sp. s + RMA 9912 BBN2P-02d ge Blautia sp. Ser8 s − m Pseudobutyrivibrio g + n Solirubrobacterales o − ge Blautia faecis s + m Bacteroides caccae s + n Acinetobacter s + kyonggiensis ge Negativicutes c + m Verrucomicrobiales o + n Acinetobacter sp. s + T133 ge Eggerthella sp. s + m Holdemania g n Iamiaceae f + HGA1 ge Flavonifractor g − m Holdemania s n Brevundimonas s − filiformis sp. JW23.4a ge Sutterellaceae f − m Verrucomicrobia p + n Malasseziaceae f + ge Intestinimonas g − m Oxalobacteraceae f + n Pseudomonas sp. s + PcFRB119 ge Peptoclostridium g + m Burkholderiales o + n Microbacterium s + sp. PcRB024 ge Asaccharospora g + m Coriobacteriaceae f + n Cytophagia c − ge Erysipelatoclostridium g − m Coriobacteriia c + n Cytophagales o − ge Campylobacter g + m Coriobacteriales o + n Novosphingobium s − sp. THA_AIK7 ge Campylobacter s − m Bacteroides s + n Staphylococcus s + concisus acidifaciens sp. C-D-MA2 ge Campylobacter s + m Blautia luti s + n Aerocoecus sp. s + rectus B43(2010) ge Achromobacter g + m Bacilli c + n Pseudomonas sp. s − PKG89 ge Flavobacterium g + m Bacteroides sp. s + n Acinetobacter sp. s + AR20 C049 ge Pseudomonas g − m Bacteroides sp. s + n Acinetobacter sp. s − AR29 WB22-23 ge Ralstonia s − m Collinsella g + n Micrococcus sp. s − pickettii WB18-01 ge Rhizobiales o − m Oscillospira g + n Sphingomonas s + sp. PDD-26b-16 ge Rhizobium g − m Erysipelotrichaceae f + n Ferruginibacter g + ge Methylobacterium g + m Roseburia s − n Amnibacterium g + intestinalis ge Moraxellaceae f + m Bacteroidales o + n Aureimonas s − phyllosphaerae ge Acinetobacter g − m Rikenellaceae f + n Stenotrophomonas s + sp. I_63- LFP1A9B1 ge Moraxella g + m Shuttleworthia g − n Blastocatella s + fastidiosa ge Neisseriaceae f − m Clostridia c + n Acinetobacter sp. s − HD5.2 ge Neisseria g + m Clostridiales o + n Ochrobactrum s + sp. FPY8 ge Neisseria s − m Lachnospiraceae f + n Chryseobacterium s + elongata sp. R064 ge Alcaligenaceae f − m Peptostreptococcaceae f − n Rhizobium sp. s 10II ge Ochrobactrum g − m Lactobacillales o − n Brevibacterium s − sp. MBTD_CMFRI_Br02 ge Enterobacteriaceae f − m Dorea g + n Exiguobacterium s + sp. icr3 ge Citrobacter g − m Desulfovibrionaceae f + n Mycobacterium s − sp. UNC410CL29Cvi84 ge Enterobacter g + m Bacteroidia c + n Phenylobacterium g + ge Kluyvera g − m Actinobacteria p − n Planctomyces g − ge Proteus g + m Verrucomicrobiae c + n Pirellula g − ge Proteus mirabilis s − m Verrucomicrobiaceae f + n Thermus sp. s − ge Serratia g − m Anaerostipes g + n Acidiphilium g + ge Haemophilus s + m Desulfovibrionales o + n Pantoea s + influenzae agglomerans ge Haemophilus s + m Oscillospiraceae f + n Yersinia g + parainfluenzae ge Bacteroides s + m Faecalibacterium g + n Yersinia s + fragilis enterocolitica ge Parabacteroides s − m Alistipes g + n Sphingobacterium s + distasonis mizutaii ge Campylobacter s + m Akkermansia g + n Dermacoccus s + gracilis nishinomiyaensis ge Campylobacter s + m Hespellia g − n Planococcus g − ureolyticus ge Porphyromonas g − m Anaerotruncus g + n Bacillus cereus s − ge Prevotella g + m Marvinbryantia g − n Sporosarcina g − ge Fusobacterium g + m Subdoligranulum g + n Cellulomonas g − ge Fusobacterium s + m Flavonifractor s − n Sphingomonas s + nucleatum plautii paucimobilis ge Fusobacterium s + m Bacteroides s + n Alicyclobacillus g − periodonticum finegoldii ge Megasphaera g + m Roseburia s + n Porphyromonas s − inulinivorans cangingivalis ge Weeksella g + m Blautia wexlerae s + n Porphyromonas s + canoris ge Weeksella virosa s + m Lactonifactor g − n Kocuria kristinae s − ge Chromatiaceae f + m Moryella g + n Pedomicrobium g − ge Rhodopseudomonas g − m Adlercreutzia s − n Bibersteinia s − equolifaciens trehalosi ge Gammaproteobacteria c − m Adlercreutzia g − n Pleurocapsales o + ge Peptostreptococcus g − m Erysipelotrichia c + n Janibacter g + ge Peptostreptococcus s − m Erysipelotrichales o + n Chroococcidiopsis g + anaerobius ge Micrococcaceae f − m Ruminococcaceae f + n Kytococcus g + ge Micrococcus g + m Blautia g + n Empedobacter g − ge Micrococcus s + m Roseburia sp. s + n Rheinheimera g luteus 11SE39 ge Staphylococcus g + m Bacteroides sp. s + n Macrococcus g + D22 ge Staphylococcus s − m Alistipes sp. RMA s + n Luteimonas g + aureus 9912 ge Staphylococcus s − m Blautia faecis s − n Pedobacter g + epidermidis ge Staphylococcus s + m Selenomonadales o − n Rubrobacterales o + simulans ge Deinococcus- p − m Acidaminococcaceae f + n Rubrobacteraceae f + Thermus ge Streptococcus s − m Negativicutes c − n Sphaerobacterales o − gordonii ge Streptococcus s − m Eggerthella sp. s n Streptosporangiales o + agalactiae HGA1 ge Streptococcus s − m Streptococcus sp. s − n Modestobacter g − parasanguinis BS35a ge Streptococcus s − m Flavonifractor g + n Modestobacter s − anginosus multiseptatus ge Streptococcus s − m Sutterellaceae f − n Sphingomonas s + dysgalactiae aquatilis ge Enterococcus g + m Anaerostipes sp. s + n Ochrobactrum s − 5_1_63FAA tritici ge Enterococcus s + m Fusicatenibacter s + n Ornithinimicrobium g + faecalis saccharivorans ge Lactococcus s + m Blautia sp. YHC-4 s − n Planomicrobium g + lactis ge Aerococcus g + m Intestinimonas g + n Microvirga g − ge Aerococcus s − m Fusicatenibacter g + n Alicyclobacillaceae f − urinae ge Gemella g − m Eisenbergiella g − n Albidovulum s − inexpectatum ge Atopobium g + m Eisenbergiella tayi s − n Ralstonia sp. s + CCUG 46389 ge Atopobium s + m Candidatus g n Albidovulum g − minutum Soleaferrea ge Bacillales o − m Peptoclostridium g − n Bdellovibrionales o ge Bacillus g − m Asaccharospora g + n Paucibacter s + toxinivorans ge Lysinibacillus s − m Erysipelatoclostridium g + n Chthoniobacter g − sphaericus ge Lactobacillus g + m Campylobacter g − n Conchiformibius g − ge Lactobacillus s − m Campylobacter s + n Erythrobacteraceae f − acidophilus concisus ge Lactobacillus s − m Campylobacter s + n Sphingomonas s + plantarum rectus dokdonensis ge Lactobacillus s + m Achromobacter g + n Staphylococcus s − gasseri sp. L10 ge Lactobacillus s − m Flavobacterium g − n Flavisolibacter g + reuteri ge Lactobacillus s m Pseudomonas g − n Aureimonas g − fermentum ge Lactobacillus s − m Rhizobiales o − n Chryseobacterium s + vaginalis haifense ge Corynebacteriaceae f − m Bradyrhizobium g − n Nocardioides s + mesophilus ge Actinomyces s − m Methylobacterium g − n Singulisphaera g + odontolyticus ge Arthrobacter g − m Moraxellaceae f + n Acidovorax sp. s − LR05 ge Bifidobacterium g − m Acinetobacter g + n Mycobacterium s − sp. KNUC297 ge Bifidobacterium s − m Moraxella g − n Pseudomonas sp. s + bifidum KNUC378 ge Bifidobacterium s + m Neisseriaceae f − n Nitrososphaera g + breve ge Bifidobacterium s + m Neisseria g − n Brevibacterium s + dentium pityocampae ge Brevibacterium g − m Neisseria mucosa s − n Sphingomonas s + sp. CS81 ge Corynebacterium g − m Neisseria elongata s − n Chryseobacterium s + sp. Y1D ge Corynebacterium s − m Neisseria macacae s − n Variovorax sp. s − diphtheriae IMER-B2-7 ge Corynebacterium s − m Alcaligenaceae f + n Thaumarchaeota p − sp. ge Propionibacterium g − m Enterobacteriaceae f + n Jeotgalicoccus s + aerolatus ge Cutibacterium s + m Enterobacter g + n Pseudorhodoferax g − acnes ge Mycobacteriaceae f + m Klebsiella g − n Burkholderia sp. s − S32 ge Mycobacterium g + m Kluyvera g − n Blastococcus sp. s + 0705C6-3 ge Rhodococcus g − m Pasteurellaceae f − n Pseudomonas sp. s + PcFRB100 ge Rhodococcus s − m Actinobacillus g − n Chryseobacterium s + erythropolis sp. IIL-Nv8 ge Actinomycetales o − m Haemophilus g − n Brevibacterium s + sp. A9C6 ge Actinomycetaceae f − m Haemophilus s − n Acinetobacter sp. s + influenzae C-S-PDA7 ge Mobiluncus g − m Haemophilus s − n Janibacter sp. s + parainfluenzae M3-5 ge Mobiluncus s − m Bacteroides fragilis s − n Blastococcus sp. s + curtisii FXJ6.383 ge Mobiluncus s − m Parabacteroides s − n Mesorhizobium s + mulieris distasonis sp. RE 62 ge Mycoplasma g + m Campylobacter s − n Bacillus sp. s − gracilis CBMAI 1158 ge Mycoplasma s + m Campylobacter s + n Shewanella sp. s + hominis ureolyticus 8113 ge Ureaplasma g − m Butyrivibrio g − n Kocuria sp. s + FXJ6.339 ge Ureaplasma s − m Porphyromonas g + n Acinetobacter sp. s − urealyticum STE ge Methanobacteriales o − m Prevotella g − n Pseudomonas sp. s PDD-31b-4 ge Methanobacteriaceae f − m Fusobacterium g − n Nitrososphaerales o + ge Methanobrevibacter g − m Fusobacterium s − n Nitrososphaeraceae f + nucleatum ge Methanobrevibacter s − m Fusobacterium s + n Photobacterium s + smithii periodonticum sp. squidInt_04 ge Gardnerella g + m Megasphaera g + n Dermacoccus sp. s + D2.1 ge Gardnerella s − m Gammaproteobacteria c − n Stenotrophomonas s − vaginalis sp. Z2-S2 ge Peptococcus g − m Peptostreptococcus g − n Deinococcus s − antarcticus ge Peptococcus s − m Finegoldia magna s + n Deinococcus sp. s − niger UAC-77 ge Halomonas g − m Peptostreptococcus s − n Staphylococcus s − anaerobius sp. 3356O2 ge Globicatella g − m Micrococcaceae f − n Variovorax sp. s + MM43Nov ge Globicatella s − m Staphylococcus g + n Janibacter sp. s + sanguinis IARI-RP17 ge Sphingomonas g − m Staphylococcus s − n Rhodobacter s + epidermidis capsulatus ge Phyllobacterium g + m Deinococcus- p − n Thermomonosporaceae f + Thermus ge Bacteroides s − m Streptococcus s − n Pedomicrobium s − eggerthii gordonii ferrugineum ge Alistipes s + m Streptococcus s + n Thermomonas g − putredinis thermophilus ge Odoribacter s + m Streptococcus s − n Alkanindiges g − splanchnicus agalactiae ge Porphyromonas s + m Streptococcus s − n Aureimonas s − asaccharolytica parasanguinis altamirensis ge Prevotella bivia s − m Enterococcus g + n Rhodococcus sp. s + CO56 ge Prevotella s + m Lactococcus lactis s + n Pseudomonas s + buccalis syringae ge Prevotella s − m Aerococcus g + n Acinetobacter s − disiens calcoaceticus ge Cronobacter s − m Gemella g + n Neisseria s + sakazakii meningitidis ge Alphaproteobacteria c − m Atopobium g − n Pectobacterium s + carotovorum ge Halomonadaceae f − m Bacillales o + n Rickettsiales o − ge Arcanobacterium g + m Bacillus g − n Fusobacterium s − russii ge Arcanobacterium s + m Lysinibacillus s − n Thiobacillus g − haemolyticum sphaericus ge Euryarchaeota p − m Clostridioides s − n Bergeyella s − difficile zoohelcum ge Gemella s − m Erysipelatoclostridium s − n Nitrosococcus g + morbillorum ramosum ge Rhizobium etli s − m Lactobacillus g − n Streptococcus s − pneumoniae ge Veillonella g − m Lactobacillus s − n Aerococcus s − plantarum viridans ge Veillonella s − m Lactobacillus s n Actinomyces s − parvula gasseri israelii ge Epsilonproteobacteria c + m Lactobacillus s − n Mycobacterium s − fermentum chelonae ge Bifidobacteriaceae f + m Lactobacillus s + n Curtobacterium g salivarius ge Propionibacteriaceae f + m Lactobacillus s − n Halobacteriales o + vaginalis ge Mollicutes c + m Corynebacteriaceae f + n Halobacteriaceae f + ge Eggerthia s − m Actinomyces g − n Chelatococcus g − catenaformis ge Helcococcus g − m Actinomyces s + n Brachymonas g + odontolyticus ge Leptotrichia g + m Bifidobacterium s + n Microlunatus s + bifidum phosphovorus ge Rothia g − m Bifidobacterium s − n Acinetobacter s + dentium haemolyticus ge Actinomyces s − m Corynebacterium g + n Arthrospira g − neuii ge Cutibacterium s − m Corynebacterium s + n Rubrobacter g + avidum sp. ge Propionimicrobium s − m Propionibacterium g + n Johnsonella s + lymphophilum ignava ge Anaerococcus s + m Cutibacterium s + n Pseudomonas s + hydrogenalis acnes agarici ge Peptoniphilus s + m Mycobacteriaceae f + n Arthrospira s − lacrimalis fusiformis ge Anaerococcus s − m Mycobacterium g + n Macrococcus s + lactolyticus caseolyticus ge Anaerococcus s + m Actinomycetales o − n Aqubacterium s − prevotii commune ge Anaerococcus s + m Rothia s − n Staphylococcus s − tetradius dentocariosa vitulinus ge Anaerococcus s − m Actinomycetaceae f − n Williamsia g − vaginalis ge Microbacterium g − m Mobiluncus g + n Bacillus niacini s − ge Lactobacillus s − m Mycoplasmatales o − n Moraxella s + johnsonii lincolnii ge Dermabacter g + m Mycoplasmataceae f − n Parachlamydiaceae f + ge Dermabacter s + m Mycoplasma g − n Alkalibacterium g + hominis ge Veillonella s − m Methanobacteriales o + n Alishewanella g − atypica ge Corynebacterium s + m Methanobacteriaceae f + n Tepidimonas g − glucuronolyticum ge Dialister g − m Methanobrevibacter g + n Coxiellaceae f ge Sneathia s − m Methanobrevibacter s + n Legionellales o + sanguinegens smithii ge Sutterella s − m Peptococcus g + n Rhodobiaceae f + wadsworthensis ge Brevundimonas g + m Solanales o − n Salana g + ge Bradyrhizobiaceae f + m Bifidobacterium s + n Salana s + pseudocatenulatum multivorans ge Rhodospirillaceae f + m Phyllobacterium g − n Pectobacterium g + ge Sphingomonadaceae f − m Bacteroides s + n Beutenbergiaceae f + eggerthii ge Corynebacterium s + m Alistipes putredinis s + n Bogoriellaceae f − argentoratense ge Brachybacterium g + m Odoribacter s + n Xenophilus g − splanchnicus ge Rothia s + m Porphyromonas s + n Georgenia g − mucilaginosa asaccharolytica ge Abiotrophia g + m Prevotella bivia s − n Pseudomonas s + graminis ge Granulicatella s + m Prevotella buccalis s + n Neisseria sp. s + adiacens CCUG 45853 ge Abiotrophia s + m Prevotella disiens s − n Williamsiaceae f − defectiva ge Parabacteroides s + m Arcanobacterium g − n Halobacteria c + merdae ge Bacteroides s − m Euryarchaeota p + n Prevotella micans s + stercoris ge Lactobacillus s + m Gemella s + n Flavobacterium s + rhamnosus morbillorum sp. EP372 ge Lactobacillus s + m Veillonella g − n Pseudospirillum g + crispatus ge Flavobacteriaceae f + m Veillonella parvula s + n Macrococcus s + brunensis ge Pantoea g + m Epsilonproteobacteria c − n Thermomonas s − brevis ge Anaerococcus s + m Bifidobacteriaceae f − n Acinetobacter sp. s − octavius 2002-2301217 ge Actinotignum s + m Propionibacteriaceae f + n Effusibacillus s − schaalii pohliae ge Trueperella s − m Mollicutes c + n Corynebacterium s − bernardiae caspium ge Chryseobacterium g + m Eggerthia s − n Kocuria s + catenaformis carniphila ge Bergeyella g + m Rhodobacteraceae f − n Candidatus g − Protochlamydia ge Corynebacterium s − m Burkholderia g + n Adhaeribacter g − ulcerans ge Meiothermus g m Fusobacteria p − n Solibacteres c − ge Actinomyces s + m Leptotrichia g − n Solibacterales o − europaeus ge Facklamia g + m Rothia g − n Solibacteraceae f − ge Facklamia sp. s + m Actinomyces neuii s + n Candidatus g − 164-92 Solibacter ge Facklamia sp. s − m Peptoniphilus s − n Exiguobacterium s + 1440-97 lacrimalis sibiricum ge Mesorhizobium g + m Parvimonas micra s − n Epilithonimonas g − ge Thermales o m Anaerococcus s n Chryseobacterium s + tetradius sp. BBCT14 ge Phyllobacteriaceae f + m Anaerococcus s + n Cryobacterium s + vaginalis psychrotolerans ge Kocuria s − m Streptophyta p − n Bradyrhizobium s − rhizophila sp. P-45 ge Pseudomonadales o − m Bilophila g + n Comamonas sp. s − P-115 ge Campylobacteraceae f + m Bilophila s + n Leucobacter sp. s + wadsworthia LR-2006b ge Tessaracoccus g − m Veillonella atypica s − n Caldilineae c + ge Kluyvera s − m Corynebacterium s − n Caldilineales o + georgiana glucuronolyticum ge Collinsella s − m Dialister g − n Caldilineaceae f + aerofaciens ge Campylobacter s − m Dialister s − n Sphingobium sp. s − hominis pneumosintes MH60 ge Actinobaculum g + m Stenotrophomonas g + n Burkholderia lata s − ge Halomonas s − m Sneathia s − n Deinococcus sp. s − pacifica sanguinegens 3B1 ge Bacillus s − m Sutterella s + n Pseudonocardia s − pseudofirmus wadsworthensis sp. CC981102-15 ge Comamonadaceae f − m Bradyrhizobiaceae f − n Perlucidibaca g + ge Delftia g − m Rhodospirillaceae f + n Microvirga s − aerilata ge Enterococcaceae f + m Sphingomonadaceae f − n Bacillus s − nanhaiisediminis ge Rhizobiaceae f − m Rothia s − n Planococcus sp. s − mucilaginosa ljh-25 ge Facklamia s + m Abiotrophia g + n Frigoribacterium s + languida sp. 181 ge Slackia g + m Granulicatella s − n Porphyrobacter s + adiacens sp. NMC22 ge Slackia exigua s + m Abiotrophia s + n Microvirga sp. s + defectiva TSX10-2 ge Gemella sp. 933- s − m Parabacteroides s + n Comamonas sp. s + 88 merdae RV_A09_23b ge Bifidobacteriales o + m Bacteroides s + n Pseudomonas sp. s − stercoris BM5 ge Micrococcales o − m Lautropia g − n Brachybacterium s + sp. b110-100S ge Corynebacteriales o − m Lactobacillus s + n Methylobacterium s − rhamnosus sp. CCGE4019 ge Propionibacteriales o + m Lactobacillus s − n Actinomycetospora s + crispatus sp. CAP 335 ge Brevibacteriaceae f − m Ralstonia g + n Arthrobacter sp. s + T2-4 ge Dermabacteraceae f + m Flavobacteriaceae f + n Flavobacterium s − sp. bk_25 ge Microbacteriaceae f + m Actinobacillus s − n Massilia oculi s + porcinus ge Nocardiaceae f − m Meiothermus s − n Alishewanella sp. s − silvanus Mn5-6 ge Bosea g + m Pantoea g + n Rhodopseudomonas s + thermotolerans ge Achromobacter s + m Anaerococcus s + n Ornithinimicrobium s + xylosoxidans octavius sp. X1C ge Mogibacterium g − m Kocuria g + n Brachymonas sp. s + canine oral taxon 015 ge Propionibacterium s − m Chryseobacterium g + n Tepidimonas sp. s − sp. V07/12348 AK30 ge Aerococcus s + m Bergeyella g + n Microvirga sp. s − christensenii BR10193 ge Lactobacillus s − m Corynebacterium s + n Ornithinimicrobium s − fornicalis ulcerans sp. THG- GM43 ge Dorea s + m Phyllobacteriaceae f + n Kocuria sp. BRI s + longicatena 36 ge Oligella g − m Campylobacteraceae f − n Kocuria sp. LW2- s + LEVI2-W ge Oligella s − m Tessaracoccus g + n Stenotrophomonas s − urethralis sp. TV49May ge Staphylococcaceae f + m Kluyvera georgiana s − n Staphylococcus s + sp. 155b ge Enterobacterales o − m Collinsella s + n Geodermatophilales o + aerofaciens ge Aquabacterium g + m Campylobacter s − n Hymenobacteraceae f + hominis ge Aquabacterium s + m Caulobacteraceae f + n Luteimonas s + sp. Aqua2 mephitis ge Candidatus p + m Delftia g + n Dermatophilaceae f + Saccharibacteria ge Pseudoglutamici s − m Enterococcaceae f + n Leucobacter s + bacter albus aridicollis ge Solobacterium s + m Rhizobiaceae f + s Bacteroidaceae f − moorei ge Veillonella ratti s + m Slackia g + s Bacteroides g − ge Lactobacillus s − m Slackia exigua s + s Bacteroides s + jensenii thetaiotaomicron ge Granulicatella g − m Gemella sp. 933- s + s Bacteroides s − 88 uniformis ge Flavobacteriia c + m Bifidobacteriales o − s Bacteroides s − vulgatus ge Bulleidia g − m Micrococcales o − s Roseburia g + ge Bulleidia s + m Corynebacteriales o + s Faecalibacterium s − extructa prausnitzii ge Brucellaceae f − m Propionibacteriales o + s Desulfovibrio g + ge Deinococcales o − m Achromobacter s + s Acidaminococcus g + xylosoxidans ge Methylobacteriaceae f + m Mogibacterium g − s Herbaspirillum g − ge Solobacterium g + m Propionibacterium s + s Herbaspirillum s − sp. V07/12348 seropedicae ge Pseudomonas s − m Aerococcus s + s Bacteroidetes p − brenneri christensenii ge Actinomyces s + m Lactobacillus s + s Proteobacteria p − radingae fornicalis ge Actinomyces s − m Dorea longicatena s + s Firmicutes p − turicensis ge Olsenella g − m Staphylococcaceae f + s Sarcina g − ge Chromatiales o + m Enterobacterales o + s Streptococcaceae f + ge Oceanospirillales o − m Aquabacterium g + s Streptococcus g + ge Pseudomonadaceae f − m Aquabacterium sp. s + s Clostridium g − Aqua2 ge Catenibacterium g − m Candidatus p + s Actinobacteria c + Saccharibacteria ge Globicatella s + m Solobacterium s + s Lachnospira s + sulfidifaciens moorei pectinoschiza ge Granulicatella s − m Lactobacillus s − s Betaproteobacteria c + elegans jensenii ge Lactobacillus s − m Granulicatella g + s Deltaproteobacteria c − iners ge Anaeroglobus g − m Flavobacteriia c + s Veillonellaceae f − ge Anaeroglobus s − m Deinococcales o − s Clostridiaceae f − geminatus ge Pseudoglutamici s + m Methylobacteriaceae f − s Phascolarctobacterium g + bacter cumminsii ge Megamonas g − m Burkholderiaceae f − s Phascolarctobacterium s + faecium ge Corynebacterium s − m Solobacterium g + s Lactobacillaceae f − mastitidis ge Peptoniphilus g − m Olsenella g − s Sutterella g − ge Sphingobium g − m Pseudomonadaceae f + s Bacteroides s + caccae ge Novosphingobium g + m Pasteurellales o − s Verrucomicrobiales o − ge Anaerococcus g + m Catenibacterium g + s Holdemania g + ge Sneathia g − m Aerosphaera g + s Verrucomicrobia p − ge Thalassospira g + m Aerosphaera taetra s + s Oxalobacteraceae f + ge Brevibacterium s + m Granulicatella s + s Burkholderiales o + paucivorans elegans ge Porphyromonadaceae f − m Finegoldia g + s Coriobacteriaceae f + ge Prevotellaceae f + m Anoxybacillus g + s Eggerthella g + ge Lactobacillus sp. s + m Anaeroglobus s + s Coriobacteriia c + CR-609S geminatus ge Actinomyces s + m Megamonas g s Coriobacteriales o + hongkongensis ge Lactobacillus s − m Peptoniphilus g − s Blautia luti s − coleohominis ge Methanobacteria c − m Novosphingobium g + s Bacilli c − ge Varibaculum g − m Anaerococcus g + s Bacteroides sp. s − AR20 ge Varibaculum s − m Sneathia g − s Oscillospira g + cambriense ge Corynebacterium s − m Thalassospira g + s Bacteroidales o − spheniscorum ge Peptococcaceae f − m Porphyromonadaceae f + s Shuttleworthia g + ge Bacillaceae f − m Prevotellaceae f − s Clostridia c − ge Aerococcaceae f + m Methanobacteria c + s Clostridiales o − ge Carnobacteriaceae f − m Varibaculum g + s Lachnospiraceae f + ge Megasphaera s + m Peptococcaceae f + s Peptostreptococcaceae f + micronuciformis ge Acidaminococcus s + m Bacillaceae f − s Lactobacillies o − intestini ge Veillonella s + m Aerococcaceae f + s Desulfovibrionaceae f + montpellierensis ge Thermaceae f m Carnobacteriaceae f + s Bacteroidia c − ge Deinococci c − m Megasphaera s + s Actinobacteria p + micronuciformis ge Dialister sp. s + m Deinococci c − s Verrucomicrobiae c − E2_20 ge Actinotignum s + m Dialister sp. E2_20 s − s Verrucomicrobiaceae f − urinale ge Propionibacterium s − m Propionibacterium s + s Anaerostipes g − sp. MSP09A sp. MSP09A ge Streptococcus s + m Flavobacteriales o + s Desulfovibrionales o + pasteurianus ge Flavobacteriales o + m Fusobacteriia c − s Oscillospiraceae f − ge Actinobaculum s − m Fusobacteriales o − s Faecalibacterium g − massiliense ge Propionimicrobium g + m Fusobacteriaceae f − s Akkermansia g − ge Fusobacteriaceae f + m Rhodospirillales o + s Akkermansia s − muciniphila ge Rhodospirillales o − m Rhodobacterales o − s Hespellia g − ge Sphingomonadales o − m Sphingomonadales o + s Marvinbryantia g − ge Bacteroides s − m Caulobacterales o + s Subdoligranulum g − massiliensis ge Neisseriales o − m Bacteroides s + s Flavonifractor s + massiliensis plautii ge Campylobacterales o + m Neisseriales o − s Bacteroides s + finegoldii ge Subdoligranulum s + m Campylobacterales o − s Lactonifactor s − variabile longoviformis ge Alistipes s − m Subdoligranulum s + s Roseburia s + finegoldii variabile inulinivorans ge Peptoniphilus s − m Bifidobacterium s − s Blautia wexlerae s − sp. 2002-38328 longum ge Peptoniphilus s − m Dialister invisus s + s Lactonifactor g − sp. 2002- 2300004 ge Actinomyces sp. s + m Peptoniphilus sp. s + s Ruminococcaceae f − 2002-2301122 2002-38328 ge Curvibacter s + m Peptoniphilus sp. s − s Clostridiales f f + gracilis 2002-2300004 XIII. Incertae Sedis ge Bacillus sp. T41 s − m Sutterella s + s Blautia g − stercoricanis ge Sutterella s − m Oribacterium g + s Roseburia sp. s + stercoricanis 11SE39 ge Fastidiosipila g − m Porphyromonas s − s Bacteroides sp. s − uenonis D22 ge Fastidiosipila s − m Odoribacter g + s Blautia faecis s − sanguinis ge Cloacibacterium s + m Bacteroides s + s Selenomonadales o − normanense salyersiae ge Helcococcus s − m Roseburia hominis s + s Acidaminococcaceae f + sueciensis ge Pseudoclavibacter g + m Roseburia faecis s + s Negativicutes c − ge Oribacterium g + m Dialister s + s Streptococcus sp. s + propionicifaciens BS35a ge Curvibacter g + m Bacteroides s + s Sutterellaceae f − plebeius ge Porphyromonas s − m Bacteroides s − s Fusicatenibacter s − uenonis coprocola saccharivorans ge Odoribacter g + m Porphyromonas s − s Blautia sp. YHC-4 s + somerae ge Corynebacterium s + m Shinella g s Intestinimonas g + sp. 2300500 ge Bacteroides s − m Alistipes shahii s + s Fusicatenibacter g − salyersiae ge Roseburia s + m Bacteroides s + s Eisenbergiella g hominis intestinalis ge Roseburia faecis s + m Peptostreptococcus s − s Eisenbergiella s stomatis tayi ge Dialister s − m Bergeyella sp. AF14 s + s Peptoclostridium g − propionicifaciens ge Dialister s − m Bacteroides dorei s − s Erysipelatoclostridium g − micraerophilus ge Bacteroides s − m Peptoniphilus sp. s + s Campylobacter g − plebeius gpac018A ge Bacteroides s − m Bacteroides sp. s + s Achromobacter g − coprocola XB12B ge Porphyromonas s + m Parabacteroides g + s Flavobacterium g + somerae ge Parabacteroides s − m Anoxybacillus sp. s + s Pseudomonas g − goldsteinii HT14 ge Alistipes shahii s − m Prevotella s − s Ralstonia s + timonensis pickettii ge Bacteroides s − m Barnesiella g + s Rhizobiales o + intestinalis ge Pelomonas g + m Lysinibacillus g − s Bradyrhizobium g + ge Bergeyella sp. s + m Howardella g + s Rhizobium g + AF14 ge Bacteroides s − m Anaerococcus s − s Mesorhizobium s + dorei murdochii loti ge Peptoniphilus s + m Acinetobacter sp. s − s Methylobacterium g − sp. gpac018A RBE2CD-114 ge Peptoniphilus s + m Streptococcus sp. s + s Moraxellaceae f + sp. gpac018B 11aTha1 ge Peptoniphilus s + m Prevotella amnii s − s Acinetobacter g − sp.gpac148 ge Bacteroides sp. s + m Alloscardovia g − s Moraxella g + XB12B ge Moryella s − m Alloscardovia s − s Neisseriaceae f + indoligenes omnicolens ge Parabacteroides g − m Veillonella rogosae s − s Neisseria g + ge Anoxybacillus s + m Megamonas s s Neisseria mucosa s + sp. HT14 funiformis ge Prevotella s − m Alistipes sp. EBA6- s + s Neisseria s − timonensis 25cl2 elongata ge Barnesiella g − m Bacteroides sp. s + s Neisseria s − EBA5-17 macacae ge Lysinibacillus g − m Paraprevotella s + s Alcaligenaceae f − clara ge Howardella g − m Oscillibacter g + s Ochrobactrum g + ge Citrobacter sp. s − m Anaerobacillus s + s Enterobacteriaceae f − BW4 alkalidiazotrophicus ge Anaerococcus s + m Alistipes sp. s + s Citrobacter g + murdochii NML05A004 ge Cronobacter g − m Barnesiella s + s Enterobacter g − intestinihominis ge Acinetobacter s − m Parasutterella s − s Klebsiella g − sp. RBE2CD-114 excrementihominis ge Streptococcus s + m Porphyromonas s + s Kluyvera g + sp. 11Tha1 bennonis ge Methylobacterium s + m Cloacibacterium g + s Pasteurellaceae f − sp. CBMB45 ge Prevotella amnii s − m Synergistetes p − s Actinobacillus g + ge Alloscardovia g + m Clostridiales f XI. f + s Haemophilus s + Incertae Sedis parainfluenzae ge Alloscardovia s + m Parvimonas g − s Bacteroides s − omnicolens fragilis ge Rhizobium sp. s − m Tenericutes p + s Campylobacter s − sc-w gracilis ge Veillonella s + m Corynebacterium s + s Campylobacter s − rogosae freiburgense ureolyticus ge Jonquetella g + m Delftia lacustris s + s Butyrivibrio g + ge Jonquetella s + m Novosphingobium s + s Porphyromonas g − anthropi sediminicola ge Megamonas s − m Butyricimonas g + s Prevotella g − funiformis ge Bacillus sp. CZb s − m Parasutterella g − s Fusobacterium g − ge Alistipes sp. s + m Enterorhabdus g − s Fusobacterium s − EBA6-25cl2 nucleatum ge Bacteroides sp. s − m Phyllobacterium s − s Fusobacterium s + EBA5-17 sp. T50 periodonticum ge Paraprevotella s + m Negativicoccus s − s Desulfovibrio s − clara succinicivorans piger ge Serratia s − m Bacteroides clarus s − s Megasphaera g + nematodiphila ge Oscillibacter g − m Sutterella sp. YIT s − s Chromatiaceae f + 12072 ge Pantoea vagans s + m Bifidobacterium s s Rhodopseudomonas g + kashiwanohense ge Anaerobacillus s − m Porphyromonas sp. s − s Gammaproteobacteria c − alkalidiazotrophicus 2024b ge Rhodopseudomonas s − m Lautropia sp. TeTO s − s Peptostreptococcus g + boonkerdii ge Chryseobacterium s + m Pyramidobacter g + s Finegoldia magna s − sp. MH28 ge Alistipes sp. s + m Anaerostipes s − s Peptostreptococcus s NML05A004 hadrus anaerobius ge Brevibacterium s − m Synergistia c − s Micrococcaceae f + ravenspurgense ge Dialister s − m Synergistales o − s Micrococcus g + succinatiphilus ge Barnesiella s − m Synergistaceae f − s Micrococcus s − intestinihominis luteus ge Pseudomonas s + m Anaerosporobacter g + s Staphylococcus g − sp. GmFRB023 ge Porphyromonas s − m Lactobacillus sp. s + s Staphylococcus s − bennonis BL302 aureus ge Cloacibacterium g + m Campylobacter sp. s − s Staphylococcus s + 10_1_50 epidermidis ge Gemella s + m Lactobacillus sp. s + s Staphylococcus s + asaccharolytica 7_1_47FAA simulans ge Bosea sp. s + m Veillonella sp. oral s + s Deinococcus- p + BIWAKO-01 taxon 780 Thermus ge Peptoniphilus s + m Bilophila sp. s + s Streptococcus s + duerdenii 4_1_30 thermophilus ge Peptoniphilus s + m Anaerobacillus g − s Streptococcus s + koenoeneniae parasanguinis ge Murdochiella s + m Corynebacterium s + s Streptococcus s − asaccharolytica sp. NML 97-0186 dysgalactiae ge Synergistetes p + m Actinomyces sp. s + s Enterococcus g + oral taxon 175 ge Cloacibacillus g − m Peptococcus sp. s − s Aerococcus g + oral taxon 168 ge Cloacibacillus s − m Streptococcus sp. s − s Gemella g − evryensis oral taxon G59 ge Clostridiales f f + m Stomatobaculum s + s Atopobium g + XI. Incertae longum Sedis ge Parvimonas g + m Blautia stercoris s + s Bacillales o + ge Tenericutes p + m Peptoniphilus sp. s + s Bacillus g + 1-14 ge Corynebacterium s + m Peptoniphilus sp. s + s Lysinibacillus s + freiburgense 7-2 sphaericus ge Delftia lacustris s − m Ralstonia sp. s + s Clostridioides s + S2.MAC.005 difficile ge Novosphingobium s + m Stenotrophomonas s − s Lactobacillus g − sediminicola sp. KITS-1 ge Butyricimonas g − m Alistipes sp. HGB5 s s Lactobacillus s − plantarum ge Bifidobacterium s − m Negativicoccus g − s Lactobacillus s − sp. 120 salivarius ge Brevibacterium s + m Shinella sp. DR33 s s Corynebacteriaceae f + massiliense ge Paraprevotella g − m Bacteroides sp. s + s Actinomyces g + SLC1-38 ge Parasutterella g − m Lactobacillus sp. s + s Actinomyces s + Akhmr01 odontolyticus ge Enterorhabdus g + m Veillonella sp. s + s Arthrobacter g + CM60 ge Negativicoccus s + m Actinomyces sp. s + s Bifidobacterium g − succinicivorans ICM54 ge Mycobacterium s + m Bifidobacterium s + s Brevibacterium g + sp. T126 sp. MSX5B ge Bacteroides s − m Campylobacter sp. s − s Corynebacterium g − clarus FOBRC15 ge Bifidobacterium s − m Fusobacterium sp. s − s Corynebacterium s + kashiwanohense ACB2 diphtheriae ge Porphyromonas s − m Fusobacterium sp. s − s Propionibacterium g + sp. 2024b AS2 ge Porphyromonas s − m Fusobacterium sp. s − s Cutibacterium s + sp. 2026 CM21 acnes ge Pyramidobacter g + m Veillonella sp. s − s Mycobacteriaceae f − AS16 ge Pseudoclavibacter s + m Veillonella sp. s − s Mycobacterium g − sp. Timone MSA12 ge Anaerostipes s + m Anaerococcus sp. s + s Rhodococcus g − hadrus 8404299 ge Synergistia c + m Anaerococcus sp. s + s Rhodococcus s − 8405254 erythropolis ge Synergistales o + m Anaerococcus sp. s + s Actinomycetales o + 9401487 ge Synergistaceae f + m Anaerococcus s + s Rothia s + provencensis dentocariosa ge Anaerosporobacter g − m Bradyrhizobium s − s Actinomycetaceae f + sp. 68A4SAPT ge Lactobacillus sp. s − m Delftia sp. BN- s + s Mobiluncus g − BL302 SKY3 ge Ochrobactrum s − m Methylobacterium s − s Mobiluncus s − sp. SCTS14 sp. RK-2008-1 curtisii ge Anaerostipes sp. s − m Staphylococcus sp. s + s Mobiluncus s + 3_2_56FAA C9I2 mulieris ge Campylobacter s + m Enterobacter sp. s + s Mycoplasmatales o + sp. 10_1_50 BS2-1 ge Lactobacillus sp. s + m Megasphaera sp. s − s Mycoplasmataceae f + 7_1_47FAA UPII 199-6 ge Veillonella sp. s − m Sphingomonas sp. s + s Mycoplasma g + oral taxon 780 540 ge Microbacterium s + m Coprobacter s + s Methanobacteriales o − yannicii fastidiosus ge Corynebacterium s + m Actinomyces sp. s + s Methanobacteriaceae f − canis ICM58 ge Tessaracoccus s − m Leptotrichiaceae f − s Methanobrevibacter g − sp. SL014B-79A ge Peptoniphilus s + m Faecalibacterium s − s Methanobrevibacter s − sp. JCM 8143 sp. canine oral smithii taxon 147 ge Corynebacterium s + m Murdochiella g + s Gardnerella g − sp. NML96- 0085 ge Anaerobacillus g − m Lachnoanaerobaculum g + s Gardnerella s − vaginalis ge Corynebacterium s + m Streptococcus sp. s + s Peptococcus g − sp. NML 97- GMD6S 0186 ge Peptoniphilus s + m Varibaculum sp. s + s Halomonas g + sp. oral taxon CCUG 45114 375 ge Brevundimonas s + m Stomatobaculum g + s Solanales o − sp. V3M6 ge Lactobacillus sp. s + m Prevotella sp. S4- s − s Sphingomonas g − TAB-22 10 ge Peptoniphilus s + m Solobacterium sp. s + s Phyllobacterium g + coxii S4-A19 ge Stomatobaculum s + m Streptococcus sp. s − s Bacteroides s − longum 2011_Oral_MS_A3 eggerthii ge Herbaspirillum s − m Veillonella sp. s + s Odoribacter s + huttiense 2011_Oral_VSA_D3 splanchnicus ge Bacteroides s + m Eggerthia g − s Porphyromonas s + stercorirosoris asaccharolytica ge Peptoniphilus s + m Alloprevotella g − s Prevotella bivia s − sp. 1-14 ge Peptoniphilus s + m Anaerococcus sp. s + s Prevotella s + sp. 7-2 S8 87-3 buccalis ge Streptococcus s − m Porphyromonas sp. s − s Alphaproteobacteria c − sp. XQ-1 S8 86-12 ge Stenotrophomonas s + m Slackia sp. S8 F4 s + s Halomonadaceae f + sp. KITS-1 ge Alistipes sp. s − m Finegoldia sp. S9 s + s Gemella s − HGB5 AA1-5 morbillorum ge Negativicoccus g + m Murdochiella sp. s + s Rhizobium etli s + S9 PR-10 ge Bacteroides sp. s + m Peptoniphilus sp. s + s Veillonella g − SLC1-38 S9 PR-13 ge Lactobacillus sp. s + m Coprobacter g + s Veillonella s − Akhmro1 parvula ge Acinetobacter s − m Staphylococcus sp. s + s Epsilonproteobacteria c − sp. C-S-NA3 334802 ge Stenotrophomonas s − m Senegalimassilia g − s Bifidobacteriaceae f − sp. C-S-TSA3 ge Acinetobacter s − m Romboutsia g + s Propionibacteriacae f + sp. RE 51 ge Veillonella sp. s + m Terrisporobacter g + s Mollicutes c + CM60 ge Actinomyces sp. s + m Intestinibacter g + s Rhodobacteraceae f + ICM54 ge Bifidobacterium s + m Peptoniphilaceae f + s Burkholderia g + sp. MSX5B ge Campylobacter s + m Atopobiaceae f − s Xanthomonadaceae f − sp. FOBRC15 ge Fusobacterium s − m Tissierellia c + s Leptotrichia g − sp. ACB2 ge Fusobacterium s − m Tissierellales o + s Cutibacterium s + sp. AS2 avidum ge Fusobacterium s + m Veillonellales o + s Anaerococcus s − sp. CM21 hydrogenalis ge Veillonella sp. s − m Selenomonadaceae f + s Peptoniphilus s − AS16 lacrimalis ge Veillonella sp. s − m Cutibacterium g s Anaerococcus s MSA12 lactolyticus ge Anaerococcus s − m Tannerellaceae f + s Parvimonas s − sp. 8404299 micra ge Anaerococcus s + m Spirochaetales o − s Anaerococcus s − provencensis prevotii ge Bradyrhizobium s + m Deinococcus g − s Anaerococcus s + sp. 68A4SAPT tetradius ge Sphingomonas s − m Lactococcus g + s Anaerococcus s − sp. 24T vaginalis ge Enterococcus sp. s + m Johnsonella g + s Microbacterium g − SI-4 ge Bosea sp. R- s + m Deinococcaceae f − s Streptophyta p − 46060 ge Lactobacillus sp. s − m Spirochaetes p − s Bilophila g + MYMRS/TEN2 ge Delftia sp. BN- s − m Spirochaetia c − s Dermabacter s + SKY3 hominis ge Moraxella sp. 26 s − m Phascolarctobacterium s − s Veillonella s + succinatutens atypica ge Staphylococcus s − m Campylobacter s + s Corynebacterium s − sp. WB18-16 showae glucuronolyticum ge Methylobacterium s + m Comamonas g − s Stenotrophomonas g − sp. RK-2008-1 ge Enterococcus sp. s + m Neisseria s − s Brevundimonas g − C6I11 flavescens ge Staphylococcus s − m Neisseria sicca s + s Bradyrhizobiaceae f + sp. C9I2 ge Brachybacterium s + m Neisseria canis s + s Rhodospirillaceae f − sp. NIO-27 ge Megasphaera sp. s + m Bergeriella s − s Sphingomonadaceae f − UPII 199-6 denitrificans ge Megasphaera sp. s − m Kingella oralis s − s Corynebacterium s + UPII 135-E argentoratense ge Sphingomonas s − m Eikenella g + s Brachybacterium g + sp. 540 ge Corynebacterium s + m Eikenella s + s Abiotrophia g + epidermidicanis corrodens ge Trueperella g − m Aggregatibacter s + s Granulicatella s + aphrophilus adiacens ge Mesorhizobium s − m Aggregatibacter s − s Abiotrophia s + sp. mat916 segnis defectiva ge Coprobacter s + m Pasteurella g − s Parabacteroides s + fastidiosus merdae ge Actinomyces sp. s + m Rodentibacter s − s Bacteroides s + ICM58 pneumotropicus stercoris ge Jonquetella sp. s + m Porphyromonas s + s Lautropia g + BV3C4 gingivalis ge Prevotella sp. s + m Cardiobacteriaceae f + s Lactobacillus s − BV3C7 crispatus Peptoniphilus s − m Desulfobulbus g − s Ralstonia g + sp. BV3AC2 ge Megasphaera sp. s + m Selenomonas g − s Flavobacteriaceae f − BV3C16-1 ge Sphingobium sp. s − m Capnocytophaga g + s Actinobacillus s + LC341 porcinus ge Anaerococcus s + m Capnocytophaga s + s Pantoea g + sp. PH9 gingivalis ge Leptotrichiaceae f − m Capnocytophaga s − s Anaerococcus s − sputigena octavius ge Faecalibacterium s − m Cyanobacteria p + s Kocuria g − sp. canine oral taxon 147 ge Murdochiella g + m Streptococcus s + s Chryseobacterium g − mutans ge Lachnoanaerobaculum g + m Streptococcus s − s Bergeyella g + intermedius ge Streptococcus s + m Atopobium s − s Corynebacterium s + sp. GMD6S parvulum ulcerans ge Varibaculum sp. s − m Atopobium rimae s − s Facklamia g + CCUG 45114 ge Varibaculum sp. s + m Lactobacillus s − s Mesorhizobium g − CCUG 61255 paracasei ge Propionibacterium s + m Actinomyces s − s Phyllobacteriaceae f − sp. KPL2005 viscosus ge Stomatobaculum g + m Bifidobacterium s − s Kocuria s + adolescentis rhizophila ge Actinomyces sp. s − m Pseudopropionibacterium s + s Pseudomonadales o − S4C9 propionicum ge Atopobium sp. s − m Anaeroplasma g + s Campylobacteraceae f − MVA9 ge Atopobium sp. s + m Asteroleplasma g + s Tessaracoccus g − S3MV24 ge Atopobium sp. s + m Methanosphaera g + s Kluyvera s + S3MV26 georgiana ge Atopobium sp. s + m Methanosphaera s + s Collinsella s + S3PFAA1-4 stadtmanae aerofaciens ge Atopobium sp. s − m Cardiobacterium g + s Caulobacteraceae f − S4-5 ge Atopobium sp. s + m Vagococcus g + s Halomonas s + S4-A11a pacifica ge Dialister sp. S4- s + m Streptococcus s − s Bacillus s − 23 mitis pseudofirmus ge Finegoldia sp. s − m Tannerella s − s Comamonadaceae f + S3MVA9 forsythia ge Gardnerella sp. s + m Porphyromonas s − s Delftia g + S3PF20 endodontalis ge Peptoniphilus s + m Prevotella s − s Enterococcaceae f + sp. S4-13 intermedia ge Prevotella sp. s + m Prevotella oralis s − s Rhizobiaceae f + S4-10 ge Solobacterium s + m Prevotella oris s − s Facklamia s + sp. S4-A19 languida ge Peptoniphilus s − m Prevotella oulorum s + s Gemella sp. 933- s + sp. S4-A10 88 ge Finegoldia sp. s + m Acetitomaculum g − s Bifidobacteriales o − S5-A7 ge Negativicoccus s − m Kingella g − s Micrococcales o + sp. S5-A15 ge Corynebacterium s + m Terrisporobacter s + s Propionibacteriales o + frankenforstense glycolicus ge Megasphaera s − m Veillonella dispar s − s Brevibacteriaceae f + massiliensis ge Corynebacterium s + m Leptotrichia s − s Dermabacteraceae f + sp. jw37 buccalis ge Streptococcus s − m Porphyromonas s + s Microbacteriaceae f − sp. catoniae 2011_Oral_MS_A3 ge Veillonella sp. s − m Corynebacterium s + s Nocardiaceae f − 2011_Oral_VSA _D3 matruchotii ge Eggerthia g − m Catonella g − s Bosea g − ge Alloprevotella g + m Catonella morbi s − s Achromobacter s − xylosoxidans ge Dialister sp. s − m Filifactor g − s Mogibacterium g + S7MSR5 ge Intestinimonas s − m Capnocytophaga s − s Propionibacterium s − butyriciproducens granulosa sp. V07/12348 ge Lactobacillus sp. s + m Capnocytophaga s + s Lactobacillus s + C30An8 haemolytica fornicalis ge Bradyrhizobium s − m Actinomyces s − s Staphylococcaceae f − sp. CCBAU georgiae 53380 ge Anaerococcus s + m Actinomyces s − s Enterobacterales o − sp. S8 87-3 meyeri ge Finegoldia sp. S8 s − m Actinomyces s + s Aquabacterium g + F7 graevenitzii ge Porphyromonas s − m Acidobacteria p + s Aquabacterium s + sp. S8 86-12 sp. Aqua2 ge Slackia sp. S8 F4 s + m Prevotella pallens s + s Candidatus p + Saccharibacteria ge Actinomyces sp. s + m Corynebacterium s − s Solobacterium s − S9 PR-21 durum moorei ge Anaerococcus s − m Streptococcus s − s Lactobacillus s + sp. S9 PR-16 peroris jensenii ge Anaerococcus s − m Mannheimia g + s Granulicatella g − sp. S9 PR-5 ge Finegoldia sp. S9 s − m Alloprevotella s − s Flavobacteriia c − AA1-5 tannerae ge Olsenella sp. S9 s − m Centipeda g + s Brucellaceae f + HS-6 ge Peptococcus sp. s − m Centipeda s + s Deinococcales o + S9 B-15 periodontii ge Peptococcus sp. s − m Cryptobacterium g − s Methylobacteriaceae f − S9 Pr-12 ge Peptoniphilus s + m Cryptobacterium s − s Burkholderiaceae f + sp. S9 PR-13 curtum ge Coprobacter g + m Rothia sp. CCUG s − s Solobacterium g − 25688 ge Corynebacterium s − m Mannheimia s − s Pseudomonas s − sp. granulomatis brenneri 713182/2012 ge Atopobium s − m Mogibacterium s + s Actinomyces s − deltae pumilum radingae ge Parvibacter g − m Mycoplasma s + s Chromatiales o + falconis ge Ralstonia sp. s − m Mycoplasma s − s Xanthomonadales o + A52 subdolum ge Helcococcus s + m Pseudoflavonifractor s + s Oceanospirillales o + seattlensis capillosus ge Staphylococcus s + m Leptotrichia s + s Pseudomonadaceae f − sp. 334802 trevisanii ge Senegalimassilia g + m Sphingobacteriia c + s Pasteurellales o − ge Peptoniphilus s − m Cardiobacteriales o + s Aerosphaera g − sp. DNF00840 ge Romboutsia g + m Filifactor alocis s − s Aerosphaera s − taetra ge Veillonella s + m Turicibacter s + s Granulicatella s − seminalis sanguinis elegans ge Terrisporobacter g + m Leptotrichia wadei s + s Lactobacillus s + iners ge Intestinibacter g + m Leptotrichia s − s Finegoldia g − hofstadii ge Atopobiaceae f + m Leptotrichia shahii s + s Anoxybacillus g − ge Actinotignum g + m Leptotrichia s − s Megamonas g − goodfellowii ge Veillonellales o + m Actinomyces sp. s − s Corynebacterium s + oral strain Hal- mastitidis 1065 ge Selenomonadaceae f − m Anaerotruncus s s Peptoniphilus g − colihominis ge Cutibacterium g + m Rothia aeria s − s Gallicola g − ge Tannerellaceae f − m Victivallis g + s Sphingobium g + ge Spirochaetales o + m Anaeroplasmatales o + s Novosphingobium g + ge Deinococcus g − m Anaeroplasmataceae f + s Anaerococcus g − ge Johnsonella g − m Turicibacter g + s Thalassospira g − ge Deinococcaceae f − m Alysiella g − s Porphyromonadaceae f − ge Spirochaetes p + m Cardiobacterium s + s Prevotellaceae f − valvarum ge Spirochaetia c + m Tannerella g − s Lactobacillus sp. s + CR-609S ge Bacteroides sp. s − m Scardovia g − s Methanobacteria c − XB44A ge Lactobacillus s − m Sphingobacteriales o + s Varibaculum g + taiwanensis g Bacteroidaceae f − m Acidobacteriia c + s Varibaculum s + cambriense g Bacteroides g − m Acidobacteriales o + s Corynebacterium s + spheniscorum g Bacteroides s − m Desulfobacterales o − s Peptococcaceae f + thetaiotaomicron g Bacteroides s − m Desulfobulbaceae f − s Bacillaceae f + vulgatus g Roseburia g + m Leptotrichia s − s Aerococcaceae f + genomosp. C1 g Faecalibacterium s + m Megasphaera s − s Carnobacteriaceae f + prausnitzii genomosp. C1 g Desulfovibrio g − m Scardovia wiggsiae s − s Deinococci c + g Desulfovibrio sp. s − m Selenomonas s − s Propionibacterium s + genomosp. P5 sp. MSP09A g Acidaminococcus g − m Victivallaceae f + s Flavobacteriales o − g Herbaspirillum g + m Lentisphaerae p + s Propionimicrobium g + g Herbaspirillum s + m Neisseria s − s Fusobacteriaceae f − seropedicae bacilliformis g Bacteroidetes p − m Actinomyces s − s Rhodospirillales o − dentalis g Proteobacteria p − m Victivallales o + s Rhodobacterales o + g Firmicutes p + m Bacteroides nordii s s Sphingomonadales o − g Sarcina g − m Capnocytophaga s − s Caulobacterales o − genosp. AHN8471 g Clostridium g + m Capnocytophaga s s Bacteroides s + sp. AHN10044 massiliensis g Actinobacteria c + m Capnocytophaga s − s Neisseriales o + sp. AHN9576 g Lachnospira g + m Capnocytophaga s + s Campylobacterales o − sp. AHN9687 g Lachnospira s + m Bergeriella g − s Subdoligranulum s − pectinoschiza variabile g Betaproteobacteria c − m Streptococcus s + s Alistipes s + dentirousetti finegoldii g Deltaproteobacteria c − m Parabacteroides s + s Bifidobacterium s − johnsonii longum g Veillonellaceae f − m Howardella s s Dialister invisus s + ureilytica g Clostridiaceae f + m Opitutae c s Peptoniphilus sp. s − 2002-38328 g Phascolarctobacterium g − m Puniceicoccales o s Peptoniphilus sp. s − 2002-2300004 g Phascolarctobacterium s − m Aggregatibacter g − s Curvibacter s + faecium gracilis g Lactobacillaceae f + m Prevotella s − s Bacillus sp. T41 s + nanceiensis g Dorea s − m Prevotella s + s Sutterella s − formicigenerans maculosa stercoricanis g Pseudobutyrivibrio g + m Veillonella sp. s − s Bacteroides sp. s + 6_1_27 35AE37 g Verrucomicrobiales o − m Actinomyces s + s Pseudoclavibacter g + massiliensis g Holdemania g − m Lachnoanaerobaculum s + s Oribacterium g − saburreum g Holdemania s − m Bacteroides sp. s + s Curvibacter g + filiformis 2_2_4 g Fibrobacteres p − m Bacteroides sp. s − s Porphyromonas s + 3_1_40A uenonis g Verrucomicrobia p − m Gordonibacter s s Odoribacter g + pamelaeae g Oxalobacteraceae f + m Atopobium sp. s − s Dialister s − DMCT15023 propionicifaciens g Burkholderiales o − m Olsenella sp. s − s Dialister s − F0004 micraerophilus g Coriobacteriaceae f + m Blautia glucerasea s + s Bacteroides s + plebeius g Eggerthella g − m Bacteroides sp. s + s Bacteroides s − DJF_B097 coprocola g Coriobacteriia c + m Actinomyces oris s − s Alistipes shahii s + g Coriobacteriales o + m Butyricimonas s − s Peptoniphilus sp. s + virosa gpac018A g Blautia luti s + m Leptotrichia s − s Peptoniphilus sp. s − hongkongensis gpac148 g Bacteroides sp. s − m Chitinophagaceae f + s Bacteroides sp. s − AR29 XB12B g Collinsella g + m Robinsoniella g + s Moryella s − indoligenes g Oscillospira g − m Propionibacterium s + s Anoxybacillus sp. s − sp. ‘Oral Taxon 191’ HT14 g Bacteroidales o − m Prevotella s − s Prevotella s − aurantiaca timonensis g Rikenellaceae f + m Neisseria s + s Barnesiella g − shayeganii g Clostridia c + m Lachnoanaerobaculum s − s Lysinibacillus g + umeaense g Clostridiales o + m Odoribacter laneus s + s Citrobacter sp. s + BW4 g Lachnospiraceae f + m Gordonibacter g + s Pseudomonas sp. s + G1116 g Peptostreptococcaceae f + m Fretibacterium s − s Anaerococcus s − fastidiosum murdochii g Lactobacillales o + m Oribacterium sp. s − s Acinetobacter sp. s − oral taxon 078 RBE2CD-114 g Dorea g + m Prevotella sp. oral s − s Streptococcus sp. s + taxon 299 11aTha1 g Desulfovibrionaceae f − m Leptotrichia sp. s − s Methylobacterium s − oral taxon 225 sp. CBMB45 g Bacteroidia c − m Oribacterium sp. s − s Megamonas s − oral taxon 102 funiformis g Actinobacteria p + m Alloprevotella rava s + s Alistipes sp. s + EBA6-25cl2 g Verrucomicrobiae c − m Parvimonas sp. s − s Bacteroides sp. s + oral taxon 110 EBA5-17 g Verrucomicrobiaceae f − m Prevotella sp. WAL s − s Paraprevotella s − 2039G clara g Fibrobacteria c − m Neisseria s − s Serratia s − skkuensis nematodiphila g Fibrobacteraceae f − m Capnocytophaga s + s Oscillibacter g − sp. oral taxon 329 g Anaerostipes g + m Actinomyces s + s Anaerobacillus s + sp. oral taxon 178 alkalidiazotrophicus g Desulfovibrionales o − m Capnocytophaga s − s Rhodopseudomonas s + sp. oral taxon 338 boonkerdii g Oscillospiraceae f − m Actinomyces s − s Alistipes sp. s + sp. oral taxon 170 NML05A004 g Faecalibacterium g + m Actinomyces sp. s + s Dialister s + oral taxon 448 succinatiphilus g Fibrobacterales o − m Capnocytophaga s + s Barnesiella s − sp. oral taxon 335 intestinihominis g Alistipes g + m Capnocytophaga s + s Parasutterella s − sp. oral taxon 336 excrementihominis g Akkermansia g − m Desulfobulbus sp. s − s Pseudomonas s − oral taxon 041 sp. GmFRB023 g Akkermansia s − m Leptotrichia sp. s + s Porphyromonas s − muciniphila oral taxon 223 bennonis g Hespellia g − m Oribacterium sp. s + s Cloacibacterium g − oral taxon 108 g Anaerotruncus g + m Shuttleworthia sp. s − s Bosea sp. s + oral taxon G69 BIWAKO-01 g Marvinbryantia g − m Streptococcus sp. s + s Synergistetes p + oral taxon G63 g Subdoligranulum g + m Tannerella sp. oral s + s Clostridiales f XI. f − taxon HOT-286 Incertae Sedis g Flavonifractor s − m Parvimonas sp. s − s Parvimonas g − plautii oral taxon 393 g Lactonifactor s − m Caldicoprobacteraceae f − s Tenericutes p + longoviformis g Lactonifactor g − m Leptotrichia sp. s − s Corynebacterium s + PG10 freiburgense g Moryella g − m Leptotrichia sp. s + s Delftia lacustris s + PTE15 g Adlercreutzia s − m Methylobacterium s − s Novosphingobium s + equolifaciens longum sediminicola g Adlercreutzia g − m Capnocytophaga s + s Paraprevotella g − sp. CM59 g Erysipelotrichia c − m Mogibacterium sp. s − s Parasutterella g − CM50 g Erysipelotrichales o − m Mogibacterium sp. s − s Enterorhabdus g − CM96 g Ruminococcaceae f + m Selenomonas sp. s + s Phyllobacterium sp. s − CM52 T50 g Clostridiales f f + m Actinomyces sp. s − s Negativicoccus s − XIII. Incertae ICM41 succinicivorans Sedis g Acidaminococcus s − m Actinomyces sp. s + s Bacteroides s + sp. D21 ICM47 clarus g Blautia g + m Atopobium sp. s + s Porphyromonas s + ICM57 sp. 2024b g Roseburia sp. s + m Fusobacterium sp. s − s Lautropia sp. s + 11SE39 CM22 TeTO g Bacteroides sp. s − m Oribacterium sp. s + s Pseudoclavibacter s + D22 CM12 sp. Timone g Blautia sp. Ser8 s + m Oribacterium sp. s − s Anaerostipes s + OBRC12 hadrus g Blautia faecis s + m Lachnoanaerobaculum s + s Synergistia c + sp. OBRC5-5 g Selenomonadales o − m Lachnoanaerobaculum s + s Synergistales o + sp. MSX33 g Acidaminococca ceae f − m Vagococcus sp. s − s Synergistaceae f + SIX2(2011) g Negativicutes c − m Lachnoanaerobaculum s + s Klebsiella sp. B12 s − orale g Eggerthella sp. s − m Actinomyces sp. s + s Anaerosporobacter g − HGA1 ZSY-1 g Flavonifractor g − m Pseudomonas sp. s − s Lactobacillus sp. s + KB23 BL302 g Sutterellaceae f − m Pseudoflavonifractor g + s Ochrobactrum s + sp. SCTS14 g Anaerostipes sp. s + m Fusobacterium sp. s − s Lactobacillus sp. s + 5_1_63FAA OBRC1 7_1_47FAA g Fusicatenibacter s + m Dielma fastidiosa s − s Veillonella sp. s + saccharivorans oral taxon 780 g Blautia sp. YHC-4 s − m Veillonella sp. JL-2 s − s Microbacterium s + yannicii g Intestinimonas g − m Neisseria oralis s − s Corynebacterium s + canis g Fusicatenibacter g + m Veillonella s + s Bilophila sp. s + tobetsuensis 4_1_30 g Eisenbergiella g − m Actinomyces sp. s − s Anaerobacillus g + ph3 g Eisenbergiella s − m Neisseria sp. s + s Corynebacterium s − tayi 104(2012) sp. NML 97-0186 g Candidatus g + m Phascolarctobacterium s s Actinomyces sp. s − Soleaferrea sp. 377 oral taxon 175 g Campylobacter s − m Streptococcus sp. s + s Peptococcus sp. s − concisus 2011_Oral_MS_H4 oral taxon 168 g Campylobacter s − m Veillonella sp. s + s Peptoniphilus sp. s − rectus 2011_Oral_VSA_B12 oral taxon 375 g Achromobacter g + m Veillonella sp. s + s Streptococcus sp. s + 2011_Oral_VSA_C9 oral taxon G59 g Flavobacterium g + m Rothia sp. THG-N7 s + s Brevundimonas s + sp. V3M6 g Rhizobiales o + m Capnocytophaga s − s Lactobacillus sp. s − sp. HS5_2W_I24 TAB-22 g Rhizobium g + m Actinomyces sp. s + s Stomatobaculum s + S6-Spd3 longum g Mesorhizobium s − m Lentisphaeria c + s Herbaspirillum s + loti huttiense g Moraxellaceae f + m Candidatus g + s Blautia stercoris s + Saccharimonas g Acinetobacter g + m Bacteroides sp. s + s Peptoniphilus sp. s − J1511 1-14 g Moraxella g + m Tessaracoccus s + s Peptoniphilus sp. s + lapidicaptus 7-2 g Neisseriaceae f + m Prevotella sp. s + s Ralstonia sp. s + HJM029 S2.MAC.005 g Neisseria g + m Fretibacterium g − s Stenotrophomonas s + sp. KITS-1 g Neisseria s + m Butyricimonas s + s Negativicoccus g − mucosa faecihominis g Alcaligenaceae f − m Butyricimonas s s Shinella sp. DR33 s + paravirosa g Ochrobactrum g + m Aeromonas g + s Acinetobacter sp. s − C-S-NA3 g Enterobacteriaceae f − m Roseburia cecicola s − s Stenotrophomonas s + sp. C-S-TSA3 g Citrobacter g + m Fusobacterium s − s Veillonella sp. s − ulcerans CM60 g Enterobacter g − m Rhodobacter g + s Actinomyces sp. s + ICM54 g Klebsiella g − m Oscillatoriales o + s Veillonella sp. s − AS16 g Kluyvera g − m Leuconostoc g − s Veillonella sp. s + MSA12 g Proteus mirabilis s + m Blautia hansenii s − s Anaerococcus sp. s + 8405254 g Serratia g + m Streptococcus s + s Anaerococcus sp. s − equinus 9401487 g Haemophilus s + m Acholeplasmataceae f + s Anaerococcus s − influenzae provencensis g Bacteroides s − m Acholeplasma g + s Sphingomonas s + fragilis sp. 24T g Parabacteroides s − m Bifidobacterium s + s Enterococcus sp. s + distasonis animalis SI-4 g Campylobacter s − m Bacteroides ovatus s − s Bosea sp. R- s − gracilis 46060 g Campylobacter s − m Leuconostocaceae f − s Delftia sp. BN- s − ureolyticus SKY3 g Porphyromonas g − m Aeromonadaceae f + s Moraxella sp. 26 s + g Prevotella g + m Aeromonadales o + s Staphylococcus s + sp. WB18-16 g Fusobacterium g + m Acholeplasmatales o + s Methylobacterium s − sp. RK-2008-1 g Fusobacterium s + m Planococcaceae f + s Enterococcus sp. s − mortiferum C6I11 g Fusobacterium s + m Acidobacteriaceae f s Staphylococcus s − nucleatum sp. C9I2 g Fusobacterium s + m Anaerosporobacter s − s Brachybacterium s + periodonticum mobilis sp. NIO-27 g Megasphaera g − m Alistipes s − s Sphingomonas s − massiliensis sp. 540 g Gammaproteobacteria c − m Veillonella sp. ADV s − s Corynebacterium s − 269.01 epidermidicanis g Peptostreptococcus g − m Bacteroides s − s Mesorhizobium s − coprophilus sp. mat916 g Micrococcaceae f + m Paraprevotella s − s Murdochiella g + xylaniphila g Staphylococcus s + m Alistipes s + s Lachnoanaerobaculum g + aureus indistinctus g Streptococcus s + m Aeromonas sp. B11 s + s Streptococcus sp. s + gordonii GMD6S g Streptococcus s − m Pseudomonas sp. s + s Varibaculum sp. s − parasanguinis a111-5 CCUG 45114 g Streptococcus s + m Lactococcus sp. s − s Varibaculum sp. s + anginosus MH5-2 CCUG 61255 g Streptococcus s − m Leuconostoc sp. s − s Propionibacterium s + dysgalactiae C7I4 sp. KPL2005 g Enterococcus s − m Butyricimonas sp. s + s Stomatobaculum g + faecalis 214-4 g Aerococcus g + m Sutterella sp. 252 s + s Actinomyces sp. s − S4-C9 g Aerococcus s − m Solanaceae f − s Atopobium sp. s + urinae S3MV24 g Atopobium g + m Staphylococcus s − s Negativicoccus s − saprophyticus sp. S5-A15 g Atopobium s + m Cutibacterium s + s Corynebacterium s + minutum granulosum sp. jw37 g Bacillus g − m Intrasporangiaceae f + s Streptococcus sp. s − 2011_Oral_MS_A3 g Lysinibacillus s − m Actinomyces s + s Veillonella sp. s + sphaericus genomosp. C1 2011_Oral_VSA_D3 g Erysipelatoclostridium s − m Cytophagia c − s Alloprevotella g + ramosum g Lactobacillus s + m Cytophagales o − s Dialister sp. s − acidophilus s7MSR5 g Lactobacillus s − m Simonsiella g + s Bradyrhizobium s + plantarum sp. CCBAU 53380 g Lactobacillus s + m Simonsiella s + s Anaerococcus sp. s + gasseri muelleri S8 F2 g Lactobacillus s − m Streptobacillus g + s Finegoldia sp. S8 s − fermentum F7 g Lactobacillus s − m Kocuria kristinae s − s Finegoldia sp. S9 s + salivarius AA1-5 g Lactobacillus s − m Janibacter g + s Murdochiella sp. s + vaginalis S9 PR-10 g Corynebacteriaceae f − m Planomicrobium g + s Peptococcus sp. s − S9 Pr-12 g Actinomyces s − m Neisseria s − s Peptoniphilus sp. s − odontolyticus wadsworthii S9 PR-13 g Arthrobacter g + m Burkholderia sp. s + s Corynebacterium s + S32 sp. 713182/2012 g Arthrobacter sp. s + m Necropsobacter g − s Ralstonia sp. A52 s + g Bifidobacterium s − m Necropsobacter s − s Staphylococcus s + bifidum rosorum sp. 3348O2 g Bifidobacterium s − m Janibacter sp. M3-5 s + s Terrisporobacter g − breve g Bifidobacterium s − m Pseudomonas s − s Intestinibacter g + dentium syringae g Brevibacterium g + m Neisseria s + s Peptoniphilaceae f − meningitidis g Corynebacterium g − m Neisseria flava s − s Tissierellia c − g Corynebacterium s + m Arthrospira g + s Tissierellales o − diphtheriae g Corynebacterium s + m Johnsonella ignava s − s Veillonellales o − sp. g Cutibacterium s + m Arthrospira s − s Cutibacterium g + acnes fusiformis g Mycobacteriaceae f + m Neisseria sp. CCUG s + s Spirochaetales o + 45853 g Rhodococcus g − m Prevotella micans s − s Deinococcus g + g Actinomycetales o + m Campylobacter s − s Lactococcus g + hyointestinalis g Rothia s + m Neisseria cinerea s − s Johnsonella g + dentocariosa g Mobiluncus g − m Neisseria s − s Deinococcaceae f + polysaccharea g Mobiluncus s + m Aggregatibacter s − s Spirochaetes p + curtisii actinomycetemcomitans g Mobiluncus s − m Selenomonas s + s Spirochaetia c + mulieris sputigena g Mycoplasmatales o + m Trichococcus g + s Bacteroides sp. s − XB44A g Mycoplasmataceae f + m Porphyromonas s + s Comamonas g − gulae g Methanobacteriales o − m Streptococcus s − s Neisseria sicca s + australis g Methanobacteriaceae f − m Olsenella uli s − s Kingella oralis s g Methanobrevibacter g − m Capnocytophaga s − s Aggregatibacter s − sp. oral strain aphrophilus A47ROY g Methanobrevibacter s − m Gemella sp. oral s − s Aggregatibacter s + smithii strain C24KA segnis g Gardnerella g − m Actinomyces sp. s − s Pasteurella g + oral strain B19SC g Globicatella g + m Actinomyces s − s Capnocytophaga g − cardiffensis g Globicatella s + m Prevotella sp. s − s Capnocytophaga s + sanguinis Smarlab 121567 gingivalis g Sphingomonas g + m Eikenella sp. s + s Capnocytophaga s − MDA2346-4 ochracea g Bifidobacterium s + m Veillonella s + s Cyanobacteria p − pseudocatenulatum rodentium g Phyllobacterium g − m Capnocytophaga s − s Streptococcus s + sp. P2 oral strain mutans P4P_12 g Bacteroides s − m Capnocytophaga s + s Vagococcus g − eggerthii leadbetteri g Alistipes s + m Mycoplasma sp. s + s Tannerella s + putredinis M221-9 forsythia g Porphyromonas s − m Propionibacterium s − s Porphyromonas s − asaccharolytica acidifaciens endodontalis g Prevotella s + m Fusobacterium sp. s + s Prevotella s + buccalis CM55 intermedia g Alphaproteobacteria c + m Campylobacter sp. s + s Prevotella s − FOBRC14 nigrescens g Arcanobacterium s − m Stenotrophomonas s + s Prevotella oris s − haemolyticum sp. NB3 g Euryarchaeota p − m Snodgrassella g − s Prevotella s − oulorum g Veillonella s − m Rothia sp. THG-T3 s + s Dolosigranulum g + parvula g Mollicutes c + m Actinomyces sp. s − s Dolosigranulum s + canine oral taxon pigrum 417 g Helcococcus g + n Bacteroidaceae f + s Acetitomaculum g − g Rhodobacteraceae f + n Bacteroides g + s Kingella g g Xanthomonadaceae f + n Bacteroides s + s Terrisporobacter s + thetaiotaomicron glycolicus g Leptotrichia g + n Bacteroides s + s Leptotrichia s − uniformis buccalis g Rothia g + n Bacteroides s − s Porphyromonas s − vulgatus catoniae g Cutibacterium s − n Roseburia g + s Catonella g + avidum g Anaerococcus s − n Faecalibacterium s + s Catonella morbi s + hydrogenalis prausnitzii g Peptoniphilus s − n Desulfovibrio g − s Filifactor g + lacrimalis g Anaerococcus s − n Desulfovibrio sp. s − s Capnocytophaga s + lactolyticus granulosa g Parvimonas s + n Herbaspirillum s − s Actinomyces s + micra seropedicae georgiae g Anaerococcus s + n Bacteroidetes p + s Actinomyces s + prevotii gerencseriae g Anaerococcus s + n Proteobacteria p + s Actinomyces s − tetradius graevenitzii g Lactobacillus s + n Firmicutes p − s Acidobacteria p − johnsonii g Bilophila g − n Sarcina g − s Prevotella pallens s + g Bilophila s − n Streptococcaceae f − s Corynebacterium s − wadsworthia durum g Dermabacter g − n Streptococcus g − s Centipeda g − g Dermabacter s + n Clostridium g + s Centipeda s − hominis periodontii g Corynebacterium s − n Actinobacteria c − s Rothia sp. CCUG s + glucuronolyticum 25688 g Dialister s + n Lachnospira g + s Mogibacterium s − pneumosintes pumilum g Stenotrophomonas g + n Lachnospira s − s Pseudoflavonifractor s − pectinoschiza capillosus g Sneathia s + n Betaproteobacteria c − s Leptotrichia s + sanguinegens trevisanii g Sutterella s − n Deltaproteobacteria c − s Sphingobacteriia c − wadsworthensis g Bradyrhizobiaceae f + n Veillonellaceae f − s Leptotrichia s − wadei g Rhodospirillaceae f + n Clostridiaceae f − s Leptotrichia s + shahii g Sphingomonadaceae f + n Phascolarctobacterium g + s Leptotrichia s − goodfellowii g Corynebacterium s + n Phascolarctobacterium s + s Tannerella g − argentoratense faecium g Rothia s + n Lactobacillaceae f − s Sphingobacteriales o − mucilaginosa g Butyrivibrio s − n Dorea s + s Chloroflexi p − crossotus formicigenerans g Abiotrophia g + n Sutterella g + s Acidobacteriia c − g Granulicatella s + n Pseudobutyrivibrio g + s Acidobacteriales o − adiacens g Abiotrophia s + n Bacteroides caccae s + s Megasphaera s + defectiva genomosp. C1 g Parabacteroides s − n Verrucomicrobiales o − s Selenomonas s + merdae genomosp. P5 g Bacteroides s + n Oxalobacteraceae f − s Actinomyces s − stercoris dentalis g Lautropia g + n Burkholderiales o − s Bacteroides s − nordii g Lactobacillus s + n Coriobacteriaceae f + s Capnocytophaga s − rhamnosus genosp. AHN8471 g Flavobacteriaceae f + n Eggerthella g + s Aggregatibacter g − g Pantoea g + n Coriobacteriia c + s Prevotella s + nanceiensis g Actinotignum s + n Coriobacteriales o + s Prevotella s − schaalii maculosa g Trueperella s + n Bacteroides s + s Actinomyces s + bernardiae acidifaciens massiliensis g Corynebacterium s − n Blautia luti s + s Lachnoanaerobaculum s + ulcerans saburreum g Facklamia sp. s + n Bacteroides sp. s − s Bacteroides sp. s + 164-92 AR20 2_2_4 g Facklamia sp. s + n Bacteroides sp. s − s Gordonibacter s + 1440-97 AR29 pamelaeae g Mesorhizobium g − n Collinsella g + s Bacteroides sp. s + DJF_B097 g Phyllobacteriaceae f − n Erysipelotrichaceae f + s Butyricimonas s + virosa g Hydrogenophilus g − n Roseburia s + s Leptotrichia s − intestinalis hongkongensis g Pseudomonadales o + n Bacteroidales o − s Chitinophagaceae f − g Tessaracoccus g + n Rikenellaceae f + s Robinsoniella g + g Kluyvera s − n Shuttleworthia g + s Rhizobium sp. s − georgiana T45 g Collinsella s − n Clostridia c − s Oribacterium sp. s − aerofaciens oral taxon 078 g Campylobacter s + n Clostridiales o − s Leptotrichia sp. s − hominis oral taxon 225 g Bifidobacterium s + n Peptostreptococcaceae f + s Alloprevotellarava s + gallicum g Comamonadaceae f + n Dorea g + s Capnocytophaga s + sp. oral taxon 338 g Rhizobiaceae f + n Desulfovibrionaceae f + s Tannerella sp. s − oral taxon HOT- 286 g Atopobium s + n Bacteroidia c − s Leptotrichia sp. s − vaginae PTE15 g Facklamia s + n Actinobacteria p − s Actinomyces sp. s − languida ICM41 g Slackia g − n Verrucomicrobiae c − s Oribacterium sp. s + CM12 g Gemella sp. 933- s + n Anaerostipes g − s Lachnoanaerobaculum s + 88 sp. OBRC5-5 g Micrococcales o + n Desulfovibrionales o + s Moraxella sp. s + WB19-16 g Corynebacteriales o − n Oscillospiraceae f + s Lysinibacillus sp. s + SJ2SN2 g Brevibacteriaceae f + n Faecalibacterium g + s Pseudoflavonifractor g − g Dermabacteraceae f − n Alistipes g + s Neisseria oralis s + g Microbacteriaceae f − n Akkermansia s − s Actinomyces sp. s + muciniphila ph3 g Nocardiaceae f − n Hespellia g + s Rothia sp. THG- s − N7 g Bosea g + n Marvinbryantia g + s Candidatus g − Saccharimonas g Achromobacter s + n Roseburia s + s Bacteroides sp. s − xylosoxidans inulinivorans J1511 g Mogibacterium g + n Blautia wexlerae s + s Tessaracoccus s − lapidicaptus g Aerococcus s − n Moryella g + s Fretibacterium g + christensenii g Eremococcus s + n Erysipelotrichia c + s Candidatus g + coleocola Stoquefichus g Lactobacillus s + n Erysipelotrichales o + s Pseudomonas s + fornicalis aeruginosa g Dorea s − n Clostridiales f XIII. f + s Enterobacter s + longicatena Incertae Sedis cloacae g Oligella g − n Blautia g + s Vibrionaceae f − g Oligella s − n Roseburia sp. s − s Aeromonas g − urethralis 11SE39 g Enterobacterales o − n Bacteroides sp. s s Rhodobacter g + D22 g Candidatus p + n Blautia faecis s + s Oscillatoriales o − Saccharibacteria g Veillonella ratti s − n Selenomonadales o − s Leuconostoc g + g Lactobacillus s − n Acidaminococcaceae f + s Leuconostoc s − jensenii lactis g Granulicatella g + n Negativicutes c − s Lactobacillus s delbrueckii g Flavobacteriia c + n Streptococcus sp. s − s Bifidobacterium s − BS35a animalis g Brucellaceae f + n Flavonifractor g + s Lactobacillus s + curvatus g Deinococcales o + n Sutterellaceae f + s Bacteroides s − ovatus g Burkholderiaceae f + n Anaerostipes sp. s + s Rahnella g + 5_1_63FAA g Hydrogenophilales o − n Fusicatenibacter s + s Weissella g + saccharivorans g Solobacterium g + n Blautia sp. YHC-4 s − s Rhodocyclaceae f − g Actinomyces s − n Fusicatenibacter g + s Pseudomonas s − radingae monteilii g Actinomyces s + n Eisenbergiella g − s Leuconostocaceae f + turicensis g Xanthomonadales o − n Eisenbergiella tayi s − s Aeromonadaceae f − g Catenibacterium g + n Peptoclostridium g + s Papillibacter g + g Globicatella s − n Erysipelatoclostridium g + s Cupriavidus g + sulfidifaciens g Aerosphaera g + n Campylobacter g − s Vibrionales o − g Aerosphaera s + n Campylobacter s + s Aeromonadales o − taetra concisus g Granulicatella s + n Achromobacter g − s Azospira g − elegans g Lactobacillus s + n Flavobacterium g + s Collinsella s + iners intestinalis g Finegoldia g + n Pseudomonas g − s Leuconostoc s − inhae g Anaeroglobus s − n Ralstonia pickettii s + s Planococcaceae f + geminatus g Megamonas g − n Rhizobiales o − s Corynebacterium s − atypicum g Corynebacterium s + n Rhizobium g + s Acidobacteriaceae f − mastitidis g Peptoniphilus g + n Mesorhizobium s + s Rhodocyclales o − loti g Sphingobium g + n Methylobacterium g − s Corynebacterium s + ciconiae g Sneathia g + n Moraxellaceae f + s Pseudoclavibacter s + bifida g Thalassospira g + n Acinetobacter g − s Anaerolineales o − g Brevibacterium s + n Moraxella g + s Streptococcus sp. s + paucivorans S16-11 g Eremococcus g + n Neisseriaceae f + s Cloacibacterium s + rupense g Porphyromonadaceae f − n Neisseria g + s Aeromonas sp. s + B11 g Lactobacillus sp. s − n Neisseria mucosa s − s Acinetobacter sp. s + CR-609S 423D g Methanobacteria c − n Neisseria elongata s − s Paucibacter sp. s + 186 g Varibaculum s − n Neisseria macacae s − s Pseudomonas sp. s − cambriense a101-18-2 g Corynebacterium s − n Alcaligenaceae f − s Lactococcus sp. s + spheniscorum MH5-2 g Peptococcaceae f + n Enterobacteriaceae f + s Pseudomonas sp. s + CBMAI 1177 g Aerococcaceae f + n Citrobacter g + s Finegoldia sp. s − BV3C29 g Carnobacteriaceae f − n Klebsiella g − s Comamonas s + jiangduensis g Megasphaera s − n Kluyvera g − s Propionibacterium s − micronuciformis sp. KPL1844 g Veillonella s − n Proteus g s Sutterella sp. 252 s + montpellierensis g Dialister sp. s − n Actinobacillus g + s Rahnella sp. s + E2_20 FB303 g Propionibacterium s + n Haemophilus s + s Hyphomicrobiaceae f − sp. MSP09A influenzae g Streptococcus s + n Haemophilus s − s Shewanella g + pasteurianus parainfluenzae g Flavobacteriales o + n Bacteroides fragilis s − s Myxococcales o − g Actinobaculum s − n Parabacteroides s + s Lysobacter g − massiliense distasonis g Propionimicrobium g − n Campylobacter s + s Caulobacter g + gracilis g Fusobacteriaceae f + n Porphyromonas g − s Caulobacter sp. s + g Rhodospirillales o + n Prevotella g − s Planctomycetales o − g Rhodobacterales o + n Fusobacterium g − s Planctomycetaceae f − g Sphingomonadales o + n Fusobacterium s + s Elizabethkingia s − nucleatum meningoseptica g Bacteroides s − n Fusobacterium s − s Brevundimonas s + massiliensis periodonticum diminuta g Hydrogenophilaceae f − n Megasphaera g + s Xanthomonas s − campestris g Neisseriales o + n Chromatiaceae f − s Acetobacteraceae f − g Subdoligranulum s + n Rhodopseudomonas g + s Acinetobacter s − variabile baumannii g Bifidobacterium s − n Gammaproteobacteria c + s Moraxella s + longum nonliquefaciens g Dialister invisus s − n Peptostreptococcus g + s Psychrobacter g + g Peptoniphilus s − n Finegoldia magna s − s Zymomonas g + sp. 2002-38328 g Peptoniphilus s + n Peptostreptococcus s + s Klebsiella s + sp. 2002- anaerobius pneumoniae 2300004 g Actinomyces sp. s + n Micrococcaceae f − s Aeromonas s − 2002-2301122 salmonicida g Sutterella s − n Micrococcus g − s Photobacterium g − stercoricanis g Fastidiosipila g + n Micrococcus luteus s + s Geobacillus s + stearothermophilus g Helcococcus s − n Staphylococcus g + s Alloiococcus s + sueciensis otitis g Bacteroides sp. s − n Staphylococcus s + s Nocardioides g − 35AE37 aureus g Pseudoclavibacter g − n Staphylococcus s + s Pseudonocardia g + epidermidis g Oribacterium g + n Staphylococcus s + s Streptomyces g + simulans g Porphyromonas s − n Deinococcus- p + s Gordonia g + uenonis Thermus g Roseburia s + n Streptococcus s − s Gordonia terrae s − hominis gordonii g Dialister s + n Streptococcus s + s Brochothrix g + propionicifaciens thermophilus g Bacteroides s + n Streptococcus s − s Solanaceae f + plebeius parasanguinis g Bacteroides s − n Streptococcus s + s Basidiomycota p + coprocola dysgalactiae g Shinella g + n Enterococcus g + s Acidovorax g + g Alistipes shahii s + n Lactococcus lactis s − s Sphingobium s + yanoikuyae g Pelomonas g + n Aerococcus g + s Micromonosporaceae f + g Peptostreptococcus s − n Aerococcus urinae s + s Sphingobacterium g + stomatis g Peptoniphilus s − n Atopobium g + s Turicella otitidis s + sp. gpac018A g Bacteroides sp. s − n Atopobium s − s Rhodoplanes g − XB12B minutum g Parabacteroides g − n Bacillales o − s Cutibacterium s + granulosum g Barnesiella g − n Bacillus g − s Microbacterium s − lacticum g Lysinibacillus g − n Lysinibacillus s + s Exiguobacterium g − sphaericus g Howardella g − n Clostridioides s + s Dietzia g + difficile g Citrobacter sp. s + n Lactobacillus g − s Acinetobacter s − BW4 radioresistens g Streptococcus s + n Lactobacillus s + s Paenibacillus g + sp. 11aTha1 plantarum g Methylobacterium s + n Lactobacillus s + s Pseudomonas s − sp. CBMB45 gasseri citronellolis g Prevotella amnii s + n Lactobacillus s − s Malassezia g + salivarius g Alloscardovia g − n Lactobacillus s − s Nesterenkonia g + vaginalis g Alloscardovia s − n Actinomyces g − s Dermacoccus g + omnicolens g Jonquetella g − n Arthrobacter g − s Pseudoxanthomonas s + japonensis g Jonquetella s − n Bifidobacterium g − s Brevundimonas s − anthropi subvibrioides g Pelomonas s + n Brevibacterium g − s Malassezia s + aquatica restricta g Megamonas s − n Corynebacterium s − s Pseudoxanthomonas g + funiformis diphtheriae g Alistipes sp. s + n Corynebacterium s − s Kineosporiaceae f + EBA6-25cl2 sp. g Bacteroides sp. s − n Propionibacterium g − s Sphingobacteriaceae f − EBA5-17 g Paraprevotella s − n Cutibacterium s + s Acidimicrobiia c − clara acnes g Serratia s − n Mycobacteriaceae f + s Acidimicrobiales o − nematodiphila g Anaerobacillus s + n Mycobacterium g + s Rubrobacteria c − alkalidiazotrophicus g Alistipes sp. s + n Rhodococcus g + s Micromonosporales o + NML05A004 g Brevibacterium s − n Rhodococcus s + s Frankiales o − ravenspurgense erythropolis g Dialister s + n Actinomycetales o − s Promicromonosporaceae f + succinatiphilus g Barnesiella s − n Rothia s − s Intrasporangiaceae f − intestinihominis dentocariosa g Parasutterella s − n Actinomycetaceae f − s Gordoniaceae f + excrementihominis g Porphyromonas s − n Mobiluncus g + s Dietziaceae f + bennonis g Cloacibacterium g − n Mobiluncus s + s Geodermatophilaceae f − mulieris g Gemella s + n Methanobacteriales o − s Marmoricola g − asaccharolytica g Peptoniphilus s + n Methanobacteriaceae f − s Marmoricola s − duerdenii aurantiacus g Peptoniphilus s − n Methanobrevibacter g − s Cytophagaceae f − koenoeneniae g Murdochiella s − n Methanobrevibacter s − s Hymenobacter g − asaccharolytica smithii g Synergistetes p − n Gardnerella g + s Xanthomonas s + gardneri g Cloacibacillus g − n Gardnerella s + s Frigoribacterium g + vaginalis g Cloacibacillus s − n Peptococcus g + s Acinetobacter s − evryensis ursingii g Atopobium sp. s + n Peptococcus niger s + s Roseomonas g − F0209 g Clostridiales f f + n Halomonas g − s Geobacillus g + XI. Incertae Sedis g Tenericutes p + n Solanales o + s Corynebacterium s − capitovis g Hydrogenophilus s − n Sphingomonas g − s Verrucomicrobia f − islandicus subdivision 3 g Corynebacterium s + n Phyllobacterium g − s Alteromonadales o + freiburgense g Delftia lacustris s − n Bacteroides s s Gemmatimonadetes p + eggerthii g Brevibacterium s − n Alistipes putredinis s − s Turicella g + massiliense g Paraprevotella g − n Porphyromonas s + s Dermacoccaceae f + asaccharolytica g Parasutterella g − n Prevotella bivia s − s Massilia g + asaccharolytica g Enterorhabdus g + n Prevotella buccalis s + s Microbacterium s + sp. absalar g Negativicoccus s − n Prevotella disiens s + s Cellulosimicrobium g − succinicivorans g Bacteroides s + n Cronobacter s + s Malasseziales o + clarus sakazakii g Sutterella sp. s + n Alphaproteobacteria c − s Aurantimonas g + YIT 12072 g Bifidobacterium s − n Halomonadaceae f − s Listeriaceae f + kashiwanohense g Porphyromonas s + n Euryarchaeota p − s Paenibacillaceae f + sp. 2024b g Lautropia sp. s + n Gemella s − s Dermacoccus sp. s + TeTO morbillorum Ellin185 g Pyramidobacter g − n Rhizobium etli s + s Thermomicrobia c − g Pseudoclavibacter s − n Veillonella g − s Thermomicrobiales o + sp. Timone g Anaerostipes s + n Epsilonproteobacteria c − s Planctomycetes p − hadrus g Synergistia c − n Bifidobacteriaceae f − s Planctomycetia c − g Synergistales o − n Propionibacteriaceae f − s Skermanella g − g Synergistaceae f − n Rhodobacteraceae f − s Roseomonas s − cervicalis g Klebsiella sp. s − n Burkholderia g − s Solirubrobacter g − B12 g Anaerosporobacter g + n Xanthomonadaceae f − s Gemmatimonadetes c + g Lactobacillus sp. s + n Fusobacteria p + s Jeotgalicoccus g + BL302 g Ochrobactrum s − n Leptotrichia g − s Salinibacterium g − sp. SCTS14 g Anaerostipes sp. s − n Rothia g − s Staphylococcus s + 3_2_56FAA equorum g Campylobacter s + n Actinomyces neuii s + s Shewanellaceae f + sp. 10_1_50 g Lactobacillus sp. s + n Cutibacterium s − s Rubellimicrobium g + 7_1_47FAA avidum g Peptoniphilus s + n Propionimicrobium s − s Sphingomonas s + sp. oral taxon lymphophilum oligophenolica 836 g Veillonella sp. s + n Anaerococcus s − s Elizabethkingia g − oral taxon 780 hydrogenalis g Corynebacterium s − n Peptoniphilus s + s Solirubrobacteraceae f − canis lacrimalis g Bilophila sp. s − n Anaerococcus s + s Dietzia cinnamea s − 4_1_30 lactolyticus g Peptoniphilus s + n Parvimonas micra s − s Xanthobacteraceae f − sp. JCM 8143 g Corynebacterium s − n Anaerococcus s + s Wautersiella g + sp. NML96- tetradius 0085 g Corynebacterium s − n Anaerococcus s + s Empedobacter s + sp. NML 97- vaginalis falsenii 0186 g Actinomyces sp. s + n Microbacterium g − s Patulibacter g − oral taxon 175 g Peptoniphilus s − n Streptophyta p + s Nubsella s − sp. oral taxon zeaxanthinifaciens 375 g Bacteroides s − n Bilophila g + s Skermanella s − stercorirosoris aerolata g Blautia stercoris s + n Bilophila s + s Acinetobacter sp. s − wadsworthia RBE2CD-76 g Peptoniphilus s + n Dermabacter s + s Exobasidiomycetes c + sp. 1-14 hominis g Peptoniphilus s − n Corynebacterium s − s Stenotrophomonas s − sp. 7-2 glucuronolyticum pavanii g Stenotrophomonas s + n Dialister g − s Mycobacterium s + sp. KITS-1 sp. 18 GUW g Shinella sp. s + n Dialister s + s Pseudolabrys g + DR33 pneumosintes g Bacteroides sp. s − n Stenotrophomonas g − s Bacillus safensis s + SLC1-38 g Lactobacillus sp. s + n Brevundimonas g − s Nubsella g − Akhmro1 g Stenotrophomonas s + n Bradyrhizobiaceae f − s Jeotgalicoccus s + sp. C-S-TSA3 nanhaiensis g Actinomyces sp. s − n Rhodospirillaceae f + s Dermacoccus sp. s − ICM54 SST-20 g Bifidobacterium s + n Sphingomonadaceae f − s Flavobacterium s − sp. MSX5B sp. CS43 g Fusobacterium s − n Brachybacterium g + s Moraxella sp. s + sp. ACB2 BBN2P-02d g Fusobacterium s − n Rothia s + s Solirubrobacterales o − sp. AS2 mucilaginosa g Fusobacterium s + n Abiotrophia g + s Acinetobacter sp. s + sp. CM21 T133 g Veillonella sp. s + n Granulicatella s − s Kineosporiales o + AS16 adiacens g Anaerococcus s + n Abiotrophia s + s Iamiaceae f − sp. 8404299 defectiva g Anaerococcus s + n Bacteroides s + s Rummeliibacillus g + sp. 8405254 stercoris g Anaerococcus s + n Lautropia g + s Pseudomonas s − sp. 9401487 baetica g Anaerococcus s + n Lactobacillus s + s Photobacterium s − provencensis crispatus sp. CAIM 866 g Bradyrhizobium s + n Ralstonia g − s Chryseomicrobium s − sp. 68A4SAPT imtechense g Sphingomonas s + n Flavobacteriaceae f + s Brevundimonas s + sp. 24T sp. JW23.4a g Enterococcus sp. s + n Actinobacillus s + s Pseudomonas sp. s + SI-4 porcinus DQ-01 g Delftia sp. BN- s − n Meiothermus s + s Malasseziaceae f + SKY3 silvanus g Methylobacterium s + n Pantoea g − s Microbacterium s − sp. RK-2008-1 sp. PCRB024 g Enterococcus sp. s − n Anaerococcus s − s Cytophagia c − C6I11 octavius g Staphylococcus s − n Kocuria g + s Cytophagales o − sp. C9I2 g Enterobacter sp. s + n Chryseobacterium g + s Chryseomicrobium g − BS2-1 g Megasphaera sp. s + n Bergeyella g + s Staphylococcus s − UPII 199-6 sp. C-D-MA2 g Megasphaera sp. s + n Corynebacterium s − s Pseudomonas sp. s + UPII 135-E ulcerans KVS86 g Corynebacterium s − n Meiothermus g + s Pseudomonas sp. s − epidermidicanis PKG89 g Trueperella g + n Actinomyces s + s Massilia sp. MA5-1 s − europaeus g Mesorhizobium s + n Facklamia g + s Granulicella g − sp. mat916 g Coprobacter s − n Facklamia sp. 164- s + s Micrococcus sp. s + fastidiosus 92 WB18-01 g Actinomyces sp. s + n Thermales o + s Dietzia sp. ISA13 s + ICM58 g Peptoniphilus s + n Phyllobacteriaceae f + s Brochothrix sp. s + sp. BV3AC2 MVP25 g Megasphaera sp. s + n Hydrogenophilus g + s Sphingomonas s − BV3C16-1 sp. PDD-26b-16 g Anaerococcus s + n Kocuria rhizophila s − s Sphingomonas s − sp. PH9 sp. KOPRI 25661 g Leptotrichiaceae f + n Pseudomonadales o + s Ferruginibacter g + g Faecalibacterium s + n Campylobacteraceae f − s Sphingobacterium s − sp. canine oral sp. HTc4-a taxon 147 g Murdochiella g − n Tessaracoccus g − s Amnibacterium g + g Lachnoanaerobaculum g + n Kluyvera georgiana s − s Comamonas sp.C s − HM_AF10 g Streptococcus s + n Collinsella s + s Massilia sp. hp37 s + sp. GMD6S aerofaciens g Varibaculum sp. s + n Campylobacter s + s Defluviimonas g − CCUG 61255 hominis g Dermabacter sp. s − n Actinobaculum g − s Ochrobactrum s − HFH0086 sp. LC498 g Propionibacterium s − n Caulobacteraceae f − s Gaiellales o − sp. KPL2005 g Actinomyces sp. s + n Halomonas s − s Gaiellaceae f − S4-C9 pacifica g Atopobium sp. s + n Bacillus s − s Aureimonas s + MVA9 pseudofirmus phyllosphaerae g Atopobium sp. s + n Comamonadaceae f − s Stenotrophomonas s − S3MV24 sp. I_63- LFP1A9B1 g Atopobium sp. s + n Delftia g − s Salinibacterium s − S3MV26 sp. MDT1-9-1 g Dialister sp. S4- s + n Enterococcaceae f + s Blastocatella g − 23 g Gardnerella sp. s − n Rhizobiaceae f + s Acinetobacter sp. s + S3PF20 HD5.2 g Prevotella sp. s + n Atopobium vaginae s + s Rhizobium sp. s + S4-10 10II g Corynebacterium s − n Facklamia s − s Bosea sp. B0.09- s − frankenforstense languida 49 g Megasphaera s + n Gemella sp. 933-88 s + s Brevibacterium s + massiliensis 88 sp. MBTD_CMFRI_Bro2 g Streptococcus s − n Bifidobacteriales o − s Exiguobacterium s − sp. sp. icr3 2011_Oral_MS_A3 g Veillonella sp. s − n Micrococcales o − s Jatrophihabitans g − 2011_Oral_VSA_D3 g Alloprevotella g + n Propionibacteriales o − s Chryseobacterium s − sp. R31 g Peptoniphilus s + n Brevibacteriaceae f − s Phenylobacterium g + sp. DNF00192 g Dialister sp. s + n Microbacteriaceae f + s Myxococcaceae f − S7MSR5 g Intestinimonas s + n Nocardiaceae f + s Polyangiaceae f − butyriciproducens g Lactobacillus sp. s + n Bosea g + s Simonsiella g + C30An8 g Anaerococcus s − n Achromobacter s − s Simonsiella s + sp. S8 87-3 xylosoxidans muelleri g Anaerococcus s − n Mogibacterium g + s Spirosoma g − sp. S8 F2 g Finegoldia sp. S8 s + n Propionibacterium s − s Aquaspirillum g + F7 sp. V07/12348 g Porphyromonas s + n Aerococcus s + s Pseudomonas s + sp. S8 86-12 christensenii fluorescens g Actinomyces sp. s − n Eremococcus s + s Moraxella sp. s − S9 PR-21 coleocola g Anaerococcus s + n Lactobacillus s + s Acidiphilium g − sp. S9 PR-16 fornicalis g Anaerococcus s + n Dorea longicatena s + s Pantoea s + sp. S9 PR-5 agglomerans g Finegoldia sp. S9 s + n Staphylococcaceae f + s Pasteurella s + AA1-5 multocida g Murdochiella sp. s − n Enterobacterales o + s Erythrobacter g − S9 PR-10 g Olsenella sp. S9 s − n Aquabacterium g − s Dermacoccus s + HS-6 nishinomiyaensis g Peptococcus sp. s + n Aquabacterium sp. s − s Streptococcus s − S9 Pr-12 Aqua2 pyogenes g Peptoniphilus s − n Candidatus p + s Planococcus g + sp. S9 PR-13 Saccharibacteria g Coprobacter g − n Solobacterium s − s Bacillus cereus s + moorei g Corynebacterium s − n Lactobacillus s − s Cellulomonas g − sp. jensenii 713182/2012 g Atopobium s − n Granulicatella g + s Cellulosimicrobium s − deltae cellulans g Helcococcus s − n Flavobacteriia c + s Actinomadura g − seattlensis g Senegalimassilia g + n Deinococcales o + s Capnocytophaga s + canimorsus g Peptoniphilus s + n Methylobacteriaceae f − s Alicyclobacillus g − sp. DNF00840 g Romboutsia g − n Burkholderiaceae f − s Filifactor villosus s + g Veillonella s − n Hydrogenophilales o + s Methylocystaceae f − seminalis g Terrisporobacter g + n Solobacterium g − s Agromyces g − g Intestinibacter g + n Pseudomonas s − s Gordonia sputi s − brenneri g Peptoniphilaceae f − n Actinomyces s + s Porphyromonas s − radingae cangingivalis g Atopobiaceae f − n Olsenella g + s Porphyromonas s − canoris g Akkermansiaceae f + n Chromatiales o − s Kocuria kristinae s + g Tissierellia c − n Xanthomonadales o − s Brachybacterium s + faecium g Tissierellales o − n Oceanospirillales o − s Beijerinckiaceae f − g Veillonellales o − n Pseudomonadaceae f − s Devosia g + g Selenomonadaceae f + n Catenibacterium g + s Pedomicrobium g + g Tannerellaceae f + n Aerosphaera g − s Bibersteinia s + trehalosi g Spirochaetales o + n Aerosphaera taetra s − s Actinoplanes s + auranticolor g Deinococcus g + n Granulicatella s + s Kineosporia g + elegans g Deinococcaceae f + n Finegoldia g − s Polaromonas g − g Spirochaetes p − n Anoxybacillus g + s Friedmanniella g − g Spirochaetia c − n Anaeroglobus g − s Janib acteg g − g Comamonas g − n Anaeroglobus s − s Nakamurella g − geminatus g Neisseria s + n Corynebacterium s − s Amaricoccus g − flavescens mastitidis g Aggregatibacter s − n Peptoniphilus g − s Kytococcus g + aphrophilus g Aggregatibacter s − n Gallicola g − s Aquamicrobium g − segnis g Capnocytophaga g + n Novosphingobium g − s Planomicrobium s − alkanoclasticum g Capnocytophaga s + n Anaerococcus g + s Duganella g − gingivalis g Cyanobacteria p + n Thalassospira g − s Fusibacter g + g Streptococcus s − n Brevibacterium s − s Craurococcus g − mutans paucivorans g Atopobium s − n Eremococcus g + s Chitinophaga g + rimae g Lactobacillus s − n Porphyromonadaceae f − s Friedmanniella s − paracasei spumicola g Actinomyces s + n Prevotellaceae f − s Microbacterium s − viscosus oxydans g Bifidobacterium s − n Lactobacillus sp. s − s Luteimonas g + adolescentis CR-609S g Anaeroplasma g + n Facklamia hominis s + s Virgibacillus g + g Asteroleplasma g + n Methanobacteria c − s Pedobacter g + g Methanosphaera g − n Varibaculum g + s Rubrobacterales o − g Methanosphaera s − n Varibaculum s + s Rubrobacteraceae f − stadtmanae cambriense g Vagococcus g − n Corynebacterium s − s Cellulomonadaceae f − spheniscorum g Prevotella s − n Bacillaceae f − s Bacillus flexus s − nigrescens g Prevotella oris s − n Aerococcaceae f + s Modestobacter g − g Dolosigranulum g − n Carnobacteriaceae f + s Modestobacter s − multiseptatus g Dolosigranulum s − n Veillonella s − s Aquamicrobium s − pigrum montpellierensis lusatiense g Acetitomaculum g − n Thermaceae f + s Sphingomonas s − aquatilis g Mogibacterium s + n Deinococci c + s Ochrobactrum s + timidum tritici g Terrisporobacter s + n Dialister sp. E2_20 s + s Leifsonia g − glycolicus g Veillonella s − n Propionibacterium s − s Ornithinimicrobium g + dispar sp. MSP09A g Succiniclasticum g − n Flavobacteriales o + s Candidatus g − Xiphinematobacter g Bifidobacterium s + n Actinobaculum s − s Knoellia g − sp. massiliense g Corynebacterium s + n Propionimicrobium g − s Conchiformibius s + matruchotii steedae g Actinomyces s + n Fusobacteriia c + s Planomicrobium g − graevenitzii g Corynebacterium s + n Fusobacteriales o + s Oerskovia g + durum g Thermoanaerobacterales o − n Fusobacteriaceae f − s Microvirga g − g Streptococcus s − n Rhodospiriilales o + s Alicyclobacillaceae f − peroris g Mannheimia g + n Rhodobacterales o − s Haematobacter s − massiliensis g Alloprevoteila s + n Sphingomonadales o − s Albidovulum s + tannerae inexpectatum g Centipeda g + n Caulobacterales o − s Alkanindiges s − illinoisensis g Eggerthella lenta s − n Bacteroides s − s Flammeovirgaceae f − massiliensis g Catenibacterium s + n Hydrogenophilaceae f + s Ralstonia sp. s + mitsuokai CCUG 46389 g Pseudoflavonifractor s − n Neisseriales o + s Albidovulum g + capillosus g Anaerovorax g − n Campylobacterales o − s Bdellovibrionales o − g Parasporobacterium g − n Alistipes finegoldii s + s Bergeyella sp. s + h1971d g Sphingobacteriia c + n Bifidobacterium s − s Cellulomonas s + longum denverensis g Anaerotruncus s − n Dialister invisus s + s Serinicoccus g − colihominis g Anaeroplasmatales o + n Peptoniphilus sp. s − s Paucibacter s − 2002-38328 toxinivorans g Anaeroplasmataceae f + n Peptoniphilus sp. s + s Chthoniobacter g + 2002-2300004 g Sphingobacteriales o + n Curvibacter gracilis s + s Phyllobacterium s + trifolii g Chloroflexi p + n Bacillus sp. T41 s + s Sphingomonas s − yunnanensis g Thermodesulfobiaceae f − n Sutterella s + s Polaromonas s − stercoricanis aquatica g Megasphaera s − n Fastidiosipila s + s Conchiformibius g − genomosp. C1 sanguinis g Actinomyces s − n Bacteroides sp. s + s Methylobacterium s + dentalis 35AE37 sp. PB142 g Bacteroides s − n Pseudoclavibacter g + s Candidatus g + nordii Alysiosphaera g Anaerolineae c + n Oribacterium g − s Altererythrobacter g − g Streptococcus s − n Curvibacter g + s Bacillus s − dentirousetti pocheonensis g Parabacteroides s − n Porphyromonas s + s Belnapia g − johnsonii uenonis g Howardella s − n Odoribacter g + s Haematobacter g − ureilytica g Opitutae c + n Corynebacterium s + s Porphyromonas s − sp. 2300500 crevioricanis g Puniceicoccales o + n Bacteroides s + s Flavobacterium s + salyersiae ceti g Desulfovibrio sp. s + n Roseburia faecis s + s Flavisolibacter g − 3_1_syn3 g Bacteroides sp. s − n Dialister s − s Nocardioides s + 2_2_4 propionicifaciens daphniae g Gordonibacter s + n Bacteroides s − s Aureimonas g − pamelaeae coprocola g Atopobium sp. s + n Shinella g + s Microbacterium s − DMCT15023 lacus g Blautia s − n Parabacteroides s − s Chryseobacterium s + glucerasea goldsteinii haifense g Bacteroides sp. s − n Alistipes shahii s + s Novosphingobium s + DJF_B097 panipatense g Butyricimonas s + n Pelomonas g − s Nocardioides s + virosa mesophilus g Parabacteroides s + n Peptostreptococcus s − s Microlunatus s − gordonii stomatis aurantiacus g Robinsoniella g + n Bergeyella sp. AF14 s − s Luteimonas s + aestuarii g Bifidobacterium s + n Peptoniphilus sp. s + s Saccharibacillus g + stercoris gpac018A g Rhizobium sp. s − n Peptoniphilus sp. s − s Singulisphaera g − T45 gpac148 g Gordonibacter g + n Anoxybacillus sp. s + s Iamia g − HT14 g Slackia sp. s − n Barnesiella g − s Duganella sp. 5B s − NATTS g Prevotella sp. s + n Lysinibacillus g + s Mycobacterium s − WAL 2039G sp. KNUC297 g Capnocytophaga s + n Citrobacter sp. s + s Pseudomonas sp. s − sp. oral taxon BW4 KNUC378 329 g Parvimonas sp. s + n Pseudomonas sp. s + s Nitrososphaera g − oral taxon 393 G1116 g Caldicoprobacteraceae f + n Anaerococcus s + s Brevibacterium s + murdochii pityocampae g Actinomyces sp. s + n Cronobacter g + s Clostridiales f f + ICM47 XII. Incertae Sedis g Oribacterium sp. s + n Acinetobacter sp. s − s Clostridiales f f − CM12 RBE2CD-114 XIX. Incertae Sedis g Oribacterium sp. s − n Streptococcus sp. s − s Dietzia lutea s + OBRC12 11aTha1 g Lachnoanaerobaculum s + n Methylobacterium s + s Sphingomonas s + sp. sp. CBMB45 sp. CS81 OBRC5-5 g Moraxella sp. s + n Rhizobium sp. sc-w s + s Chryseobacterium s − WB19-16 sp. Y1D g Lysinibacillus s − n Veillonella rogosae s + s Spirosoma rigui s − sp. SJ2SN2 g Pseudoflavonifractor g − n Jonquetella g + s Pedobacter sp. s + DL5 g Fusobacterium s + n Jonquetella s + s Exiguobacterium s + sp. OBRC1 anthropi sp. YS1 g Dielma s + n Pelomonas s − s Neisseria s − fastidiosa aquatica wadsworthii g Veillonella sp. s + n Alistipes sp. EBA6- s + s Variovorax sp. s + JL-2 25Cl2 IMER-B2-7 g Actinomyces sp. s − n Bacteroides sp. s + s Thaumarchaeota p − ph3 EBA5-17 g Phascolarctobacterium s − n Paraprevotella s + s Pseudomonas sp. s + sp. 377 clara StFRB280 g Parabacteroides s + n Oscillibacter g + s Jeotgalicoccus sp. s + faecis AD9 g Veillonella sp. s + n Anaerobacillus s + s Nocardioides s − 2011_Oral_VSA_B12 alkalidiazotrophicus ginsengagri g Veillonella sp. s + n Rhodopseudomonas s s Leifsonia s − 2011_Oral_VSA_C9 boonkerdii psychrotolerans g Rothia sp. THG- s + n Chryseobacterium s − s Cellulosimicrobium s − N7 sp. MH28 sp. 143-1 g Actinomyces sp. s − n Alistipes sp. s − s Sphingomonas sp. s − S6-Spd3 NML05A004 Z1-YC6841 g Bacteroides sp. s − n Barnesiella s − s Acinetobacter sp. s + J1511 intestinihominis S2(2009) g Tessaracoccus s + n Parasutterella s + s Jeotgalicoccus s − lapidicaptus excrementihominis aerolatus g Robinsoniella s − n Pseudomonas sp. s + s Chryseobacterium s + sp. KNHs210 GmFRB023 sp. sptzw36 g Candidatus g − n Porphyromonas s − s Pseudorhodoferax g + Stoquefichus bennonis g Dielma g + n Cloacibacterium g − s Burkholderia sp. s − S32 g Alistipes inops s − n Bosea sp. s + s Pseudomonas sp. s − BIWAKO-01 PcFRB068 g Coprobacter s − n Peptoniphilus s + s Pseudomonas sp. s − secundus duerdenii PcFRB100 g [Collinsella] s + n Synergistetes p + s Psychrobacter s − massiliensis sanguinis g Bifidobacterium s − n Clostridiales f XI. f − s Chryseobacterium s + choerinum Incertae Sedis sp. MC10-6 g Helicobacter g + n Parvimonas g + s Planomicrobium s − sp. TPD46 g Enterobacter s − n Hydrogenophilus s + s Comamonas sp. s + cloacae islandicus RV_F08_22d g Hafnia g + n Corynebacterium s + s Exiguobacterium s + freiburgense sp. Sh3 g Hafnia alvei s + n Delftia lacustris s + s Mo destobacter s − sp. R-36506 g Klebsiella s + n Novosphingobium s − s Brevundimonas s − oxytoca sediminicola sp. a001-4 g Morganella g + n Brevibacterium s + s Psychrobacter sp. s − massiliense b110-1 g Morganella s + n Paraprevotella g + s Brevibacterium s + morganii sp. A9C6 g Aeromonas g + n Parasutterella g + s Nitriliruptoria c − g Roseburia s − n Phyllobacterium s − s Euzebyales o − cecicola sp. T50 g Fusobacterium s + n Negativicoccus s − s Euzebyaceae f − varium succinicivorans g Fusobacterium s + n Porphyromonas sp. s − s Euzebya g − necrogenes 2026 g Fusobacterium s − n Lautropia sp. TeTO s + s Methylobacterium s + ulcerans sp. AMS64 g Desulfovibrio s − n Pseudoclavibacter s + s Acinetobacter sp. s − desulfuricans sp. Timone C-S-PDA7 g Acidaminococcus s − n Synergistia c + s Micrococcus sp. s − fermentans M12-2-2 g Oscillatoriales o + n Synergistales o + s Chryseobacterium s − sp. bk_19 g Leuconostoc g + n Synergistaceae f + s Rhodococcus sp. s − MARG10 g Leuconostoc s + n Anaerosporobacter g + s Rhodococcus sp. s − mesenteroides P52 g Leuconostoc s + n Ochrobactrum sp. s + s Blastococcus sp. s − lactis SCTS14 FXJ6.383 g Pediococcus g − n Lactobacillus sp. s − s Mesorhizobium s + 7_1_47FAA sp. RE 62 g Clostridium s − n Peptoniphilus sp. s + s Knoellia sp. s − ventriculi oral taxon 836 BA3(2011) g Blautia hansenii s − n Veillonella sp. oral s + s Nocardioides sp. s − taxon 780 BA32(2011) g Streptococcus s − n Microbacterium s − s Bacillus sp. s + equinus yannicii CBMAI 1158 g Enterococcus s − n Corynebacterium s + s Rhizobium s + hirae canis skierniewicense g Blautia s + n Tessaracoccus sp. s − s Shewanella sp. s + coccoides SL014B-79A 8113 g Romboutsia s + n Bilophila sp. s − s Kocuria sp. s − lituseburensis 4_1_30 FXJ6.339 g Weissella s − n Peptoniphilus sp. s + s Exiguobacterium s − confusa JCM 8143 sp. IT2 g Lactobacillus s + n Anaerobacillus g + s Arthrobacter sp. s − delbrueckii LM27(2011) g Lactobacillus s − n Corynebacterium s + s Staphylococcus s − animalis sp. NML 97-0186 sp. C5I16 g Lactobacillus s + n Actinomyces sp. s + s Arthrobacter sp. s − ruminis oral taxon 175 NIO-1057 g Bifidobacterium s − n Peptococcus sp. s + s Frigoribacterium s − catenulatum oral taxon 168 sp. PDD-31b-8 g Eubacterium g − n Streptococcus sp. s − s Methylobacterium s − oral taxon G59 sp. PDD-23b- 14 g Eubacterium s − n Brevundimonas sp. s + s Pseudomonas sp. s + limosum V3M6 PDD-31b-4 g Propionibacterium s − n Peptoniphilus coxii s + s Rhodococcus sp. s + freudenreichii PDD-31b-7 g Acholeplasmataceae f + n Herbaspirillum s + s Stenotrophomonas s − huttiense sp. PDD-33b-8 g Acholeplasma g + n Peptoniphilus sp. s − s Sphingobacterium s − 1-14 sp. TB1 g Sporomusa g − n Peptoniphilus sp. s − s Moraxella sp. s + 7-2 1967 g Epulopiscium g + n Ralstonia sp. s − s Nitrososphaerales o − S2.MAC.005 g Carnobacterium g − n Stenotrophomonas s + s Nitrososphaeraceae f − sp. KITS-1 g Carnobacterium s − n Negativicoccus g + s Photobacterium s − maltaromaticum sp. squidInt_04 g Synergistes g + n Shinella sp. DR33 s + s Erythrobacter sp. s + DHXJ15 g Bifidobacterium s + n Bacteroides sp. s + s Deinococcus sp. s − animalis SLC1-38 MN4-8 g Lactobacillus s − n Lactobacillus sp. s − s Bacteroides sp. s − curvatus Akhmr01 canine oral taxon 040 g Bacteroides s − n Stenotrophomonas s − s Aquaspirillum sp. s + ovatus sp. C-S-TSA3 canine oral taxon 091 g Rikenella g + n Acinetobacter sp. s − s Streptococcus sp. s − RE 51 canine oral taxon 279 g Rikenella s + n Veillonella sp. s − s Peptococcus sp. s − microfusus CM60 canine oral taxon 344 g Cellulosilyticum s − n Actinomyces sp. s + s Stenotrophomonas s + lentocellum ICM54 sp. Z2-S2 g Brachyspira g + n Fusobacterium sp. s + s Deinococcus s − ACB2 antarcticus g Brachyspira s + n Fusobacterium sp. s + s Hymenobacter s − aalborgi AS2 sp. MIC2056 g Bacteroides sp. s + n Fusobacterium sp. s + s Knoellia sp. Zs20 s − CM21 g Blautia producta s − n Veillonella sp. s − s Oerskovia sp. s + AS16 Tibet-YD4604-5 g Lactobacillus s + n Veillonella sp. s + s Staphylococcus s − kefiri MSA12 sp. 335602 g Rahnella g + n Anaerococcus sp. s − s Novosphingobium s + 8404299 sp. iMX1 g Citrobacter s + n Anaerococcus sp. s + s Variovorax sp. s + amalonaticus 8405254 MM43NoV g Acetivibrio g − n Anaerococcus sp. s − s Janibacter sp. s + 9401487 IARI-RP17 g Sporobacter g + n Anaerococcus s − s Kytococcus sp. s + provencensis YB227 g Pseudobutyrivibrio s + n Bradyrhizobium s − s Chromobacteriaceae f + ruminis sp. 68A4SAPT g Weissella g − n Sphingomonas sp. s − s Luteococcus g − 24T g Weissella s + n Enterococcus sp. s + s Sorangium g − hellenica SI-4 g Sporomusa s − n Bosea sp. R-46060 s + s Pedomicrobium s + sphaeroides ferrugineum g Mitsuokella g − n Delftia sp. BN- s − s Friedmanniella s − SKY3 sp. Ellin171 g Mitsuokella s + n Staphylococcus sp. s + s Alkanindiges g − multacida WB18-16 g Enterococcus s − n Methylobacterium s − s Rheinheimera sp. s + durans sp. RK-2008-1 G3DM-27 g Blautia s − n Staphylococcus sp. s − s Rhodococcus sp. s − hydrogenotrophica C9I2 CO56 g Methanobrevibacter s − n Brachybacterium s + s Actinomyces sp. s − sp. sp. NIO-27 canine oral taxon 374 n Megasphaera sp. s + s Ornithinimicrobium s + UPII 199-6 sp. L5

TABLE 2 Taxa associated with individuals with sleep-related condition of shift work (e.g., night shift work, with daytime sleeping periods, etc.), where the first through fourth columns are a set corresponding to each other, the fifth through eighth columns are a set corresponding to each other, and the ninth through twelfth columns are a set corresponding to each other. Column header “s” corresponds to site (“g” corresponds to gut, “ge” corresponds to genitals”, “n” corresponds to nose, “s” corresponds to skin, “m” corresponds to mouth”); column header “n” corresponds to taxon name; column header “r” corresponds to taxon rank (“f” corresponds to family, “g” corresponds to genus, “s” corresponds to species, “p” corresponds to phylum, “c” corresponds to class, “o” corresponds to order); column header “c” corresponds to correlation (“+” corresponds to correlation and/or other association with control group individuals; “−” corresponds to correlation and/or other association with condition group individuals (sleep-relation condition of shift work)). s n r c s n r c s n r c g Bacteroidaceae f − g Finegoldia sp. S5- s + n Rhodobacteraceae f + A7 g Bacteroides g − g Negativicoccus sp. s − n Xanthomonadaceae f + S5-A15 g Bacteroides s + g Corynebacterium s + n Fusobacteria p + thetaiotaomicron frankenforstense g Bacteroides s + g Megasphaera s − n Leptotrichia g + uniformis massiliensis g Bacteroides s − g Corynebacterium s − n Rothia g + vulgatus sp. jw37 g Roseburia g + g Streptococcus sp. s + n Actinomyces s + 2011_Oral_MS_A3 neuii g Faecalibacterium s + g Veillonella sp. s + n Cutibacterium s + prausnitzii 2011_Oral_VSA_D3 avidum g Desulfovibrio g + g Alloprevotella g + n Propionimicrobium s + lymphophilum g Desulfovibrio s + g Dialister sp. s − n Peptoniphilus s + sp. S7MSR5 lacrimalis g Acidaminococcus g − g Intestinimonas s + n Anaerococcus s + butyriciproducens lactolyticus g Herbaspirillum g − g Lactobacillus sp. s + n Anaerococcus s − C30An8 tetradius g Herbaspirillum s − g Anaerococcus sp. s − n Anaerococcus s + seropedicae S8 87-3 vaginalis g Bacteroidetes p − g Anaerococcus sp. s − n Microbacterium g − S8 F2 g Proteobacteria p + g Porphyromonas sp. s − n Streptophyta p + S8 86-12 g Firmicutes p + g Actinomyces sp. S9 s − n Dermabacter g + PR-21 g Sarcina g + g Anaerococcus sp. s − n Dermabacter s + S9 PR-5 hominis g Streptococcaceae f − g Finegoldia sp. S9 s + n Veillonella s − AA1-5 atypica g Streptococcus g + g Murdochiella sp. S9 s − n Corynebacterium s − PR-10 glucuronolyticum g Clostridium g − g Murdochiella sp. S9 s − n Dialister g + PR-10 g Actinobacteria c + g Olsenella sp. S9 s + n Stenotrophomonas g − HS-6 g Lachnospira g + g Peptococcus sp. S9 s − n Brevundimonas g + Pr-12 g Lachnospira s + g Peptoniphilus sp. s − n Bradyrhizobiaceae f + pectinoschiza S9 PR-13 g Betaproteobacteria c + g Coprobacter g − n Rhodospirillaceae f + g Deltaproteobacteria c + g Coprobacter g − n Sphingomonadaceae f − g Asaccharospora s + g Corynebacterium s − n Corynebacterium s − irregularis sp. 713182/2012 argentoratense g Veillonellaceae f + g Atopobium deltae s + n Brachybacterium g + g Clostridiaceae f + g Helcococcus s − n Abiotrophia g + seattlensis g Phascolarctobacterium g − g Staphylococcus sp. s − n Granulicatella s − 334802 adiacens g Phascolarctobacterium s − g Senegalimassilia g + n Abiotrophia s + faecium defectiva g Lactobacillaceae f + g Peptoniphilus sp. s + n Lautropia g − DNF00840 g Dorea s + g Romboutsia g − n Lactobacillus s − formicigenerans rhamnosus g Sutterella g + g Romboutsia g − n Lactobacillus s + crispatus g Pseudobutyrivibrio g + g Veillonella s + n Ralstonia g − seminalis g Bacteroides s + g Terrisporobacter g + n Flavobacteriaceae f + caccae g Verrucomicrobiales o + g Terrisporobacter g + n Actinobacillus s − porcinus g Holdemania g + g Intestinibacter g + n Pantoea g − g Holdemania s + g Peptoniphilaceae f − n Anaerococcus s − filiformis octavius g Fibrobacteres p + g Peptoniphilaceae f − n Kocuria g + g Verrucomicrobia p + g Atopobiaceae f − n Actinotignum s + schaalii g Oxalobacteraceae f − g Akkermansiaceae f + n Trueperella s − bernardiae g Burkholderiales o + g Tissierellia c − n Chryseobacterium g + g Coriobacteriaceae f + g Tissierellia c − n Bergeyella g + g Eggerthella g + g Tissierellales o − n Corynebacterium s + ulcerans g Coriobacteriia c + g Tissierellales o − n Actinomyces s + europaeus g Coriobacteriales o + g Veillonellales o + n Facklamia g − g Bacteroides s − g Selenomonadaceae f + n Facklamia sp. s − acidifaciens 164-92 g Blautia luti s + g Tannerellaceae f + n Facklamia sp. s − 1440-97 g Bacilli c + g Spirochaetales o + n Mesorhizobium g − g Bacteroides sp. s − g Deinococcus g + n Phyllobacteriaceae f − AR20 g Bacteroides sp. s − g Lactococcus g + n Kocuria s + AR29 rhizophila g Collinsella g + g Lactococcus g + n Pseudomonadales o − g Oscillospira g − g Deinococcaceae f + n Campylobacteraceae f − g Erysipelotrichaceae f + g Spirochaetes p − n Tessaracoccus g + g Roseburia s − g Spirochaetia c − n Kluyvera s + intestinalis georgiana g Bacteroidales o − g Bacteroides sp. s − n Collinsella s + XB44A aerofaciens g Rikenellaceae f − g Phascolarctobacterium s − n Actinobaculum g − succinatutens g Shuttleworthia g + g Comamonas g − n Caulobacteraceae f + g Clostridia c + g Neisseria flavescens s + n Bacillus s + pseudofirmus g Clostridiales o + g Aggregatibacter s + n Comamonadaceae f − aphrophilus g Lachnospiraceae f + g Aggregatibacter s + n Delftia g − segnis g Peptostreptococcaceae f + g Pasteurella g + n Enterococcaceae f + g Lactobacillales o + g Rodentibacter s + n Rhizobiaceae f + pneumotropicus g Dorea g + g Fibrobacter g − n Facklamia s + languida g Desulfovibrionaceae f + g Selenomonas g + n Gemella sp. 933- s + 88 g Bacteroidia c − g Capnocytophaga g + n Bifidobacteriales o − g Actinobacteria p + g Cyanobacteria p + n Corynebacteriales o − g Verrucomicrobiae c + g Actinomyces s + n Propionibacteriales o − viscosus g Verrucomicrobiaceae f + g Bifidobacterium s + n Brevibacteriaceae f − adolescentis g Fibrobacteria c + g Bifidobacterium s + n Dermabacteraceae f + adolescentis g Fibrobacteraceae f + g Anaeroplasma g + n Microbacteriaceae f − g Anaerostipes g + g Asteroleplasma g + n Nocardiaceae f − g Desulfovibrionales o + g Methanosphaera g + n Bosea g + g Oscillospiraceae f − g Methanosphaera s + n Achromobacter s + stadtmanae xylosoxidans g Faecalibacterium g + g Porphyromonas s + n Mogibacterium g − endodontalis g Fibrobacterales o + g Prevotella s + n Propionibacterium s + intermedia sp. V07/12348 g Alistipes g − g Prevotella s + n Aerococcus s + nigrescens christensenii g Akkermansia g + g Prevotella oris s − n Eremococcus s + coleocola g Akkermansia s + g Dolosigranulum g − n Dorea longicatena s + muciniphila g Hespellia g − g Dolosigranulum s − n Staphylococcaceae f + pigrum g Anaerotruncus g − g Acetitomaculum g + n Enterobacterales o + g Marvinbryantia g + g Mogibacterium s + n Aquabacterium g + timidum g Subdoligranulum g + g Terrisporobacter s − n Aquabacterium s + glycolicus sp. Aqua2 g Flavonifractor s − g Veillonella dispar s + n Candidatus p + plautii Saccharibacteria g Bacteroides s + g Succiniclasticum g − n Pseudoglutamicibacter s − finegoldii albus g Lactonifactor s + g Bifidobacterium sp. s + n Solobacterium s + longoviformis moorei g Roseburia s + g Porphyromonas s − n Granulicatella g + inulinivorans catoniae g Blautia s − g Acidobacteria p − n Flavobacteriia c + wexlerae g Lactonifactor g + g Prevotella pallens s − n Brucellaceae f + g Moryella g − g Thermoanaerobacterales o + n Deinococcales o + g Adlercreutzia s − g Streptococcus s + n Methylobacteriaceae f + equolifaciens peroris g Adlercreutzia g − g Eggerthella lenta s + n Burkholderiaceae f − g Erysipelotrichia c + g Catenibacterium s − n Solobacterium g + mitsuokai g Erysipelotrichales o + g Pseudoflavonifractor s + n Pseudomonas s + capillosus brenneri g Ruminococcaceae f + g Anaerovorax g + n Actinomyces s + radingae g Clostridiales f f − g Parasporobacterium g − n Chromatiales o + XIII. Incertae Sedis g Acidaminococcus s − g Sphingobacteriia c + n Xanthomonadales o + sp. D21 g Blautia g + g Turicibacter s − n Oceanospirillales o − sanguinis g Roseburia sp. s + g Actinomyces sp. s + n Pseudomonadaceae f − 11SE39 oral strain Hal- 1065 g Bacteroides sp. s − g Anaerotruncus s + n Pasteurellales o − D22 colihominis g Alistipes sp. s − g Victivallis g − n Aerosphaera g + RMA 9912 g Blautia sp. Ser8 s + g Anaeroplasmatales o + n Aerosphaera s + taetra g Blautia faecis s − g Anaeroplasmataceae f + n Granulicatella s + elegans g Selenomonadales o − g Turicibacter g − n Lactobacillus s − iners g Acidaminococcaceae f − g Scardovia g + n Finegoldia g − g Negativicutes c − g Sphingobacteriales o + n Corynebacterium s − mastitidis g Eggerthella sp. s + g Chloroflexi p + n Peptoniphilus g − HGA1 g Streptococcus s + g Acidobacteriia c − n Sphingobium g + sp. BS35a g Flavonifractor g + g Acidobacteriales o − n Novosphingobium g g Sutterellaceae f + g Thermodesulfobiaceae f n Anaerococcus g − g Anaerostipes s + g Leptotrichia s − n Thalassospira g + sp. 5_1_63FAA genomosp. C1 g Fusicatenibacter s + g Megasphaera s − n Brevibacterium s − saccharivorans genomosp. C1 paucivorans g Blautia sp. s + g Scardovia wiggsiae s + n Eremococcus g + YHC-4 g Intestinimonas g − g Victivallaceae f − n Porphyromonadaceae f − g Fusicatenibacter g + g Lentisphaerae p + n Prevotellaceae f + g Eisenbergiella g − g Victivallales o − n Facklamia s − hominis g Eisenbergiella s − g Bacteroides nordii s + n Varibaculum g − tayi g Candidatus g + g Anaerolineae c + n Varibaculum s − Soleaferrea cambriense g Peptoclostridium g − g Streptococcus s + n Corynebacterium s − dentirousetti spheniscorum g Asaccharospora g + g Parabacteroides s + n Peptococcaceae f + johnsonii g Erysipelatoclostridium g + g Howardella s + n Bacillaceae f + ureilytica ge Bacteroidaceae f + g Opitutae c − n Aerococcaceae f − ge Bacteroides g + g Puniceicoccales o − n Carnobacteriaceae f + ge Bacteroides s + g Aggregatibacter g + n Megasphaera s − thetaiotaomicron micronuciformis ge Bacteroides s + g Prevotella s − n Deinococci c + vulgatus nanceiensis ge Roseburia g + g Desulfovibrio sp. s + n Dialister sp. s + 3_1_syn3 E2_20 ge Faecalibacterium s + g Bacteroides sp. s − n Propionibacterium s + prausnitzii 2_2_4 sp. MSP09A ge Herbaspirillum g − g Bacteroides sp. s − n Flavobacteriales o + 3_1_40A ge Herbaspirillum s − g Gordonibacter s + n Propionimicrobium g + seropedicae pamelaeae ge Bacteroidetes p + g Gordonibacter s + n Fusobacteriia c + pamelaeae ge Proteobacteria p + g Blautia glucerasea s + n Fusobacteriales o + ge Firmicutes p − g Bacteroides sp. s − n Fusobacteriaceae f + DJF_B097 ge Sarcina g − g Bacteroides sp. s − n Rhodospirillales o + DJF_B097 ge Streptococcaceae f − g Actinomyces oris s + n Rhodobacterales o + ge Streptococcus g + g Butyricimonas s + n Sphingomonadales o − virosa ge Actinobacteria c + g Anaerotruncus sp. s + n Caulobacterales o + NML 070203 ge Lachnospira g + g Parabacteroides s + n Neisseriales o − gordonii ge Betaproteobacteria c − g Robinsoniella g − n Campylobacterales o − ge Veillonellaceae f + g Bifidobacterium s − n Subdoligranulum s + stercoris variabile ge Clostridiaceae f − g Rhizobium sp. T45 s − n Alistipes s + finegoldii ge Lactobacillaceae f − g Odoribacter laneus s + n Bifidobacterium s − longum ge Sutterella g + g Gordonibacter g + n Dialister invisus s ge Bacteroides s + g Gordonibacter g + n Peptoniphilus sp. s + caccae 2002-38328 ge Verrucomicrobiales o + g Slackia sp. NATTS s − n Peptoniphilus sp. s − 2002-2300004 ge Verrucomicrobia p + g Prevotella sp. WAL s − n Curvibacter s − 2039G gracilis ge Oxalobacteraceae f − g Caldicoprobacteraceae f + n Bacillus sp. T41 s − ge Burkholderiales o − g Leptotrichia sp. s − n Fastidiosipila s + PG10 sanguinis ge Coriobacteriaceae f + g Lactobacillus sp. s + n Helcococcus s − NRCT-KU 1 sueciensis ge Coriobacteriia c + g Actinomyces sp. s − n Pseudoclavibacter g − ICM47 ge Coriobacteriales o + g Atopobium sp. s − n Oribacterium g + ICM57 ge Blautia luti s + g Oribacterium sp. s − n Curvibacter g − OBRC12 ge Bacilli c − g Lachnoanaerobaculum s + n Odoribacter g sp. MSX33 ge Bacteroides sp. s + g Lachnoanaerobaculum s + n Roseburia faecis s + AR20 orale ge Collinsella g + g Pseudomonas sp. s + n Dialister s + KB23 propionicifaciens ge Erysipelotrichaceae f + g Pseudoflavonifractor g + n Dialister s + micraerophilus ge Bacteroidales o + g Fusobacterium sp. s + n Porphyromonas s − OBRC1 somerae ge Shuttleworthia g − g Dielma fastidiosa s + n Shinella g + ge Clostridia c + g Phascolarctobacterium s − n Pelomonas g − sp. 377 ge Clostridiales o + g Phascolarctobacterium s − n Peptostreptococcus s sp. 377 stomatis ge Lachnospiraceae f − g Parabacteroides s − n Bergeyella sp. s − faecis AF14 ge Peptostreptococcaceae f + g Veillonella sp. s − n Bacteroides dorei s + 2011_Oral_VSA_B12 ge Lactobacillales o − g Veillonella sp. s + n Peptoniphilus sp. s − 2011_Oral_VSA_C9 gpaco18A ge Bacteroidia c + g Rothia sp. THG-N7 s + n Peptoniphilus sp. s + gpac148 ge Actinobacteria p + g Actinomyces sp. s − n Prevotella s + S6-Spd3 timonensis ge Verrucomicrobiae c + g Lentisphaeria c − n Lysinibacillus g + ge Verrucomicrobiaceae f + g Bacteroides sp. s − n Citrobacter sp. s + J1511 BW4 ge Faecalibacterium g + g Bacteroides sp. s − n Pseudomonas sp. s − J1511 G1116 ge Akkermansia g + g Tessaracoccus s − n Anaerococcus s − lapidicaptus murdochii ge Akkermansia s + g Fretibacterium g + n Acinetobacter sp. s + muciniphila RBE2CD-114 ge Subdoligranulum g + g Robinsoniella sp. s − n Streptococcus sp. s + KNHS210 11aTha1 ge Moryella g + g Candidatus g − n Methylobacterium s + Stoquefichus sp. CBMB45 ge Erysipelotrichia c + g Butyricimonas s − n Veillonella s + faecihominis rogosae ge Erysipelotrichales o + g Butyricimonas s − n Jonquetella g − paravirosa ge Ruminococcaceae f + g Dielma g − n Jonquetella s − anthropi ge Clostridiales f f + g Alistipes inops s − n Pelomonas s − XIII. Incertae aquatica Sedis ge Blautia g + g Coprobacter s + n Pantoea vagans s − secundus ge Bacteroides sp. s + g Anaerofilum g + n Anaerobacillus s − D22 alkalidiazotrophicus ge Selenomonadales o + g [Collinsella] s − n Rhodopseudomonas s + massiliensis boonkerdii ge Acidaminococcaceae f + g Bifidobacterium s + n Brevibacterium s − choerinum ravenspurgense ge Negativicutes c + g Campylobacter s + n Dialister s + jejuni succinatiphilus ge Streptococcus s + g Moraxella s − n Pseudomonas sp. s + sp. BS35a catarrhalis GmFRB023 ge Sutterellaceae f + g Hafnia g + n Porphyromonas s − bennonis ge Fusicatenibacter s + g Hafnia alvei s + n Peptoniphilus s − saccharivorans duerdenii ge Fusicatenibacter g + g Klebsiella oxytoca s + n Synergistetes p − ge Campylobacter g + g Morganella g + n Clostridiales f XI. f − Incertae Sedis ge Achromobacter g − g Morganella s + n Parvimonas g + morganii ge Pseudomonas g g Proteus vulgaris s + n Corynebacterium s + freiburgense ge Ralstonia s + g Aeromonas g + n Delftia lacustris s − pickettii ge Rhizobiales o + g Fusobacterium s + n Brevibacterium s + perfoetens massiliense ge Rhizobium g + g Fusobacterium s + n Phyllobacterium s varium sp. T50 ge Mesorhizobium s − g Fusobacterium s − n Negativicoccus s − loti necrogenes succinicivorans ge Methylobacterium g + g Fusobacterium s − n Lautropia sp. s − ulcerans TeTO ge Neisseria s + g Acidaminococcus s − n Pseudoclavibacter s − macacae fermentans sp. Timone ge Alcaligenaceae f − g Megasphaera s − n Synergistia c − elsdenii ge Ochrobactrum g + g Rhodobacter g − n Synergistales o − ge Enterobacteriaceae f + g Leuconostoc g − n Synergistaceae f − ge Citrobacter g g Leuconostoc lactis s − n Klebsiella sp. B12 s + ge Kluyvera g + g Leuconostoc s − n Ochrobactrum sp. s + carnosum SCTS14 ge Pasteurellaceae f + g Clostridium s − n Lactobacillus sp. s + ventriculi 7_1_47FAA ge Haemophilus g + g Blautia hansenii s − n Peptoniphilus sp. s + oral taxon 836 ge Haemophilus s + g Streptococcus s − n Veillonella sp. s + influenzae equinus oral taxon 780 ge Haemophilus s + g Enterococcus hirae s + n Corynebacterium s + parainfluenzae canis ge Campylobacter s + g Blautia coccoides s − n Tessaracoccus sp. s + ureolyticus SL014B-79A ge Porphyromonas g + g Romboutsia s − n Peptoniphilus sp. s − lituseburensis JCM 8143 ge Prevotella g + g Weissella confusa s − n Corynebacterium s − sp. NML96-0085 ge Fusobacterium g + g Lactobacillus s + n Anaerobacillus g − delbrueckii ge Rhodopseudomonas g + g Lactobacillus s − n Corynebacterium s − helveticus sp. NML 97-0186 ge Gammaproteobacteria c + g Lactobacillus s + n Actinomyces sp. s + animalis oral taxon 175 ge Peptostreptococcus g + g Lactobacillus s − n Peptococcus sp. s − ruminis oral taxon 168 ge Finegoldiamagna s + g Bifidobacterium s − n Peptoniphilus sp. s − catenulatum oral taxon 375 ge Peptostreptococcus s + g Eubacterium g + n Streptococcus sp. s − anaerobius oral taxon G59 ge Micrococcaceae f − g Eubacterium s + n Brevundimonas s + limosum sp. V3M6 ge Staphylococcus g + g Propionibacterium s − n Peptoniphilus s − freudenreichii coxii ge Streptococcus s + g Acholeplasmataceae f + n Stomatobaculum s − gordonii longum ge Streptococcus s + g Acholeplasma g + n Peptoniphilus sp. s − thermophilus 1-14 ge Streptococcus s − g Sporomusa g − n Peptoniphilus sp. s − agalactiae 7-2 ge Streptococcus s + g Carnobacterium g + n Ralstonia sp. s − parasanguinis S2.MAC.005 ge Streptococcus s + g Carnobacterium s + n Stenotrophomonas s + anginosus maltaromaticum sp. KITS-1 ge Streptococcus s + g Synergistes g + n Negativicoccus g − dysgalactiae ge Enterococcus g + g Bifidobacterium s + n Shinella sp. DR33 s + animalis ge Enterococcus s + g Bacteroides ovatus s − n Acinetobacter sp. s − faecalis C-S-NA3 ge Aerococcus g − g Bacteroides ovatus s − n Stenotrophomonas s + sp. C-S-TSA3 ge Aerococcus s + g Rikenella g + n Veillonella sp. s − urinae CM60 ge Gemella g + g Rikenella s + n Actinomyces sp. s + microfusus ICM54 ge Atopobium g + g Cellulosilyticum s − n Fusobacterium s − lentocellum sp. ACB2 ge Bacillales o + g Brachyspira g + n Fusobacterium s + sp. CM21 ge Bacillus g + g Brachyspira s + n Veillonella sp. s + aalborgi AS16 ge Lysinibacillus s + g Bacteroides sp. s − n Anaerococcus sp. s − sphaericus 8404299 ge Lactobacillus g − g Blautia producta s − n Anaerococcus sp. s + 8405254 ge Lactobacillus s − g Lactobacillus kefiri s + n Anaerococcus sp. s + acidophilus 9401487 ge Lactobacillus s + g Rahnella g − n Anaerococcus s − gasseri provencensis ge Lactobacillus s + g Citrobacter s + n Bradyrhizobium s reuteri amalonaticus sp. 68A4SAPT ge Lactobacillus s + g Acetivibrio g − n Sphingomonas s − vaginalis sp. 24T ge Corynebacteriaceae f + g Sporobacter g + n Enterococcus sp. s + SI-4 ge Actinomyces g + g Sporobacter s − n Bosea sp. R- s + termitidis 46060 ge Actinomyces s + g Dysgonomonas s + n Delftia sp. BN- s − odontolyticus capnocytophagoides SKY3 ge Arthrobacter g − g Pseudobutyrivibrio s − n Staphylococcus s + ruminis sp. WB18-16 ge Bifidobacterium g + g Weissella g − n Methylobacterium s sp. RK-2008-1 ge Bifidobacterium s + g Weissella hellenica s + n Staphylococcus s + bifidum sp. C9I2 ge Bifidobacterium s + g Sporomusa s − n Enterobacter sp. s − breve sphaeroides BS2-1 ge Brevibacterium g − g Mitsuokella g − n Megasphaera sp. s + UPII 199-6 ge Corynebacterium g + g Mitsuokella s + n Sphingomonas s + multacida sp. 540 ge Corynebacterium s − g Enterococcus s + n Trueperella g − sp. durans ge Propionibacterium g − g Eubacterium s + n Mesorhizobium s − callanderi sp. mat916 ge Cutibacterium s + g Blautia s − n Actinomyces sp. s + acnes hydrogenotrophica ICM58 ge Actinomycetales o + g Raoultella s + n Sphingobium sp. s + ornithinolytica LC341 ge Actinomycetaceae f + g Enterobacter s + n Anaerococcus sp. s + asburiae PH9 ge Mobiluncus g + g Methanobrevibacter s − n Leptotrichiaceae f + sp. ge Mobiluncus s + g Anaerobacter g + n Murdochiella g + curtisii ge Mobiluncus s + g Desulfovibrio sp. s + n Lachnoanaerobaculum g − mulieris UNSW3caefatS ge Mycoplasmatales o + g Rhodocyclaceae f − n Varibaculum sp. s − CCUG 45114 ge Mycoplasmataceae f + g Pseudomonas s − n Dermabacter sp. s + monteilii HFH0086 ge Mycoplasma g + g Bifidobacterium s − n Propionibacterium s + merycicum sp. KPL2005 ge Mycoplasma s + g Bifidobacterium s + n Stomatobaculum g − hominis pullorum ge Ureaplasma g + g Leuconostocaceae f − n Actinomyces sp. s + S4-C9 ge Ureaplasma s + g Anaerovibrio g − n Atopobium sp. s + urealyticum S3MV26 ge Gardnerella g + g Anaerosinus s + n Atopobium sp. s + glycerini S3PFAA1-4 ge Gardnerella s + g Succinivibrionaceae f − n Atopobium sp. s + vaginalis S4-A11a ge Peptococcus g + g Succinivibrio g − n Gardnerella sp. s − S3PF20 ge Globicatella g − g Aeromonadaceae f + n Prevotella sp. S4- s − 10 ge Globicatella s − g Lactobacillus s + n Negativicoccus s + sanguinis mucosae sp. S5-A15 ge Sphingomonas g g Papillibacter g + n Corynebacterium s + sp. jw37 ge Prevotella bivia s + g Coprobacillus g + n Streptococcus sp. s − 2011_Oral_MS_A3 ge Prevotella s + g Proteus penneri s + n Alloprevotella g + buccalis ge Prevotella s + g Lactobacillus s − n Stenotrophomonas s + disiens algidus sp. N017 ge Alphaproteobacteria c + g Anaerostipes caccae s + n Bradyrhizobium s − sp. CCBAU 53380 ge Arcanobacterium g + g Pelistega g − n Anaerococcus sp. s − S8 87-3 ge Arcanobacterium s + g Cupriavidus g + n Anaerococcus sp. s − haemolyticum S8 F2 ge Gemella s + g Parasporobacterium s − n Finegoldia sp. S8 s + morbillorum paucivorans F7 ge Veillonella s − g Campylobacter s − n Finegoldia sp. S9 s − parvula faecalis AA1-5 ge Epsilonproteobacteria c + g Oscillospira s − n Murdochiella sp. s + guilliermondii S9 PR-10 ge Bifidobacteriaceae f + g Fusobacterium s − n Peptoniphilus sp. s + equinum S9 PR-13 ge Propionibacteriaceae f − g Aeromonadales o − n Corynebacterium s + sp. 713182/2012 ge Mollicutes c + g Bacillus sp. HC15 s − n Ralstonia sp. A52 s + ge Helcococcus g − g Weissella cibaria s + n Staphylococcus s − sp. 334802 ge Xanthomonadaceae f − g Brachyspiraceae f + n Peptoniphilus sp. s + DNF00840 ge Fusobacteria p + g Azospira g − n Veillonella s + seminalis ge Leptotrichia g + g Collinsella s − n Intestinibacter g + intestinalis ge Rothia g g Anaerosinus g + n Peptoniphilaceae f − ge Actinomyces s − g Dysgonomonas g + n Atopobiaceae f − neuii ge Propionimicrobium s + g Bifidobacterium s + n Tissierellia c − lymphophilum scardovii ge Anaerococcus s + g Enterococcus s − n Tissierellales o − hydrogenalis pallens ge Peptoniphilus s + g Raoultella g + n Veillonellales o − lacrimalis ge Anaerococcus s + g Marvinbryantia s + n Selenomonadaceae f − lactolyticus formatexigens ge Anaerococcus s + g Victivallis vadensis s + n Cutibacterium g + prevotii ge Anaerococcus s + g Blautia schinkii s + n Spirochaetales o − vaginalis ge Lactobacillus s + g Robinsoniella s − n Deinococcus g − johnsonii peoriensis ge Dermabacter g + g Acholeplasmatales o + n Lactococcus g + ge Veillonella s + g Eubacteriaceae f − n Deinococcaceae f + atypica ge Dialister g + g Thermoanaerobacteraceae f − n Spirochaetes p − ge Stenotrophomonas g − g Planococcaceae f − n Spirochaetia c − ge Sneathia s + g Mitsuokella s − n Neisseria canis s + sanguinegens jalaludinii ge Bradyrhizobiaceae f − g Gelria g − n Aggregatibacter s − aphrophilus ge Sphingomonadaceae f + g Sedimentibacter g + n Aggregatibacter s − segnis ge Brachybacterium g + g Corynebacterium s + n Cardiobacteriaceae f + atypicum ge Abiotrophia g + g Acidobacteriaceae f − n Capnocytophaga g + ge Abiotrophia s + g Rhodocyclales o − n Capnocytophaga s + defectiva gingivalis ge Lactobacillus s − g Allisonella g − n Capnocytophaga s − rhamnosus sputigena ge Lactobacillus s + g Allisonella g − n Cyanobacteria p − crispatus ge Flavobacteriaceae f − g Allisonella s − n Actinomyces s + histaminiformans viscosus ge Anaerococcus s + g Allisonella s − n Cardiobacterium g + octavius histaminiformans ge Actinotignum s + g Anaerofustis s − n Cardiobacterium s + schaalii stercorihominis hominis ge Trueperella s + g Methanomicrobia c − n Tannerella s + bernardiae forsythia ge Actinomyces s + g Eggerthella sinensis s + n Porphyromonas s + europaeus endodontalis ge Facklamia g − g Bifidobacterium s − n Prevotella s + thermacidophilum nigrescens ge Facklamia sp. s − g Bacteroides sp. s + n Prevotella oris s + 164-92 31SF15 ge Facklamia sp. s − g Slackia faecicanis s − n Prevotella s + 1440-97 oulorum ge Mesorhizobium g − g Anaerosporobacter s − n Dolosigranulum g + mobilis ge Phyllobacteriaceae f − g Anaerofustis g − n Dolosigranulum s + pigrum ge Pseudomonadales o g Alistipes s − n Leptotrichia s − massiliensis buccalis ge Campylobacteraceae f + g Veillonella sp. ADV s + n Bifidobacterium s − 269.01 sp. ge Tessaracoccus g − g Catabacter g + n Porphyromonas s − catoniae ge Kluyvera s + g Catabacter s + n Corynebacterium s + georgiana hongkongensis matruchotii ge Collinsella s + g Pseudoclavibacter s − n Capnocytophaga s + aerofaciens bifida granulosa ge Campylobacter s + g Bacteroides sp. s + n Actinomyces s + hominis Smarlab 3301643 georgiae ge Actinobaculum g + g Anaerolineaceae f + n Actinomyces s + graevenitzii ge Bifidobacterium s + g Anaerolineales o + n Prevotella pallens s + gallicum ge Bacillus s + g Proteiniphilum g + n Corynebacterium s + pseudofirmus durum ge Comamonadaceae f + g Streptococcus sp. s − n Streptococcus s + S16-11 peroris ge Delftia g + g Bacteroides sp. s + n Alloprevotella s + WH302 tannerae ge Enterococcaceae f + g Bacteroides sp. s − n Centipeda g + 4072 ge Rhizobiaceae f − g Paucibacter g + n Centipeda s + periodontii ge Atopobium s + g Alistipes s − n Mogibacterium s − vaginae onderdonkii pumilum ge Facklamia s + g Mitsuokella sp. s + n Moraxella caprae s − languida TM-10 ge Bifidobacteriales o + g Oscillibacter s − n Sphingobacteriia c + valericigenes ge Micrococcales o − g Bifidobacterium s − n Cardiobacteriales o + tsurumiense ge Corynebacteriales o + g Megasphaera sp. s − n Turicibacter s − TrE9262 sanguinis ge Propionibacteriales o − g Anaerococcus sp. s − n Leptotrichia s + gpac137 wadei ge Brevibacteriaceae f − g Weissella sp. H1a s − n Rothia aeria s − ge Dermabacteraceae f − g Bacteroides s − n Turicibacter g − xylanisolvens ge Microbacteriaceae f − g Barnesiella s + n Sphingobacteriales o + viscericola ge Bosea g − g Pediococcus sp. s + n Acidobacteriia c + MFC1 ge Achromobacter s − g Cronobacter s + n Acidobacteriales o + xylosoxidans dublinensis ge Mogibacterium g + g Cronobacter s − n Actinomyces s + turicensis dentalis ge Aerococcus s − g Catabacteriaceae f + n Aggregatibacter g − christensenii ge Lactobacillus s + g Cellulosilyticum s − n Prevotella s + fornicalis ruminicola nanceiensis ge Oligella g − g Bacteroides sp. s − n Lachnoanaerobaculum s − CB57 saburreum ge Oligella s − g Sutterella s − n Leptotrichia s + urethralis parvirubra hongkongensis ge Staphylococcaceae f + g Paraprevotella s + n Bifidobacterium s + xylaniphila stercoris ge Enterobacterales o + g Bacteroides sp. s − n Rhizobium sp. s + 3_1_23 T45 ge Candidatus p − g Parabacteroides sp. s + n Leptotrichia sp. s + Saccharibacteria 20_3 oral taxon 225 ge Pseudoglutamicibacter s − g Nosocomiicoccus g + n Alloprevotella s + albus rava ge Lactobacillus s − g Nosocomiicoccus s + n Neisseria s + jensenii ampullae skkuensis ge Granulicatella g + g Comamonas sp. j41 s + n Capnocytophaga s + sp. oral taxon 329 ge Flavobacteriia c − g Butyricicoccus s + n Leptotrichia sp. s − pullicaecorum PTE15 ge Bulleidia g + g Cloacibacterium s − n Fusobacterium s + rupense sp. CM22 ge Bulleidia s + g Fusobacterium sp. s + n Brevundimonas s + extructa DJF_B100 sp. FXJ8.080 ge Brucellaceae f + g Mitsuokella sp. s − n Moraxella sp. s − DJF_RR21 WB19-16 ge Methylobacteriaceae f + g Gracilibacteraceae f − n Pseudomonas sp. s − KB23 ge Burkholderiaceae f + g Butyricimonas s + n Lysinibacillus sp. s + synergistica SJ2SN2 ge Actinomyces s + g Selenomonas sp. s − n Fusobacterium s + turicensis Ycbo8 sp. OBRC1 ge Xanthomonadales o − g Streptococcus sp. s − n Neisseria oralis s − TMO13 ge Pseudomonadaceae f g Asaccharobacter g + n Rothia sp. THG- s + N7 ge Pasteurellales o + g Coprobacillus sp. s + n Candidatus g + D6 Saccharimonas ge Globicatella s + g Bifidobacterium sp. s − n Bacteroides sp. s + sulfidifaciens 138 J1511 ge Aerosphaera g + g Butyricicoccus g + n Pseudomonas s + aeruginosa ge Aerosphaera s + g Bacteroides sp. D20 s + n Moraxella s − taetra catarrhalis ge Granulicatella s + g Hydrogenoanaerobacterium g + n Enterobacter s + elegans cloacae ge Lactobacillus s − g Bacteroides fluxus s − n Morganella g + iners ge Finegoldia g + g Bacteroides s + n Morganella s + oleiciplenus morganii ge Anaeroglobus g + g Alistipes s + n Aeromonas g + indistinctus ge Anaeroglobus s + g Slackia piriformis s − n Rhodobacter g + geminatus ge Pseudoglutamic s + g Collinsella tanakaei s − n Leuconostoc g + ibacter cumminsii ge Peptoniphilus g + g Pyramidobacter s + n Leuconostoc s + piscolens lactis ge Gallicola g + g Bacteroides sp. TP-5 s + n Weissella confusa s + ge Sphingobium g + g Anaerostipes s + n Lactobacillus s − butyraticus curvatus ge Anaerococcus g + g Aeromonas sp. B11 s + n Rhodocyclaceae f ge Sneathia g + g Acinetobacter sp. s + n Pseudomonas s + 423D monteilii ge Brevibacterium s − g Acinetobacter sp. s + n Leuconostocaceae f − paucivorans 81A1 ge Porphyromona f + g Parabacteroides sp. s + n Aeromonadaceae f + daceae D25 ge Prevotellaceae f + g Pantoea gaviniae s − n Aeromonadales o + ge Lactobacillus s + g Enterorhabdus s + n Corynebacterium s + sp. CR-609S caecimuris atypicum ge Facklamia s − g Bacteroides faecis s + n Acidobacteriaceae f + hominis ge Actinomyces s − g Bacteroides faecis s + n Rhodocyclales o hongkongensis ge Lactobacillus s + g Blautia sp. Ser5 s + n Pseudoclavibacter s + coleohominis bifida ge Varibaculum g + g Eubacterium sp. s − n Nosocomiicoccus g − SA11 ge Varibaculum s + g Bacteroides s − n Nosocomiicoccus s − cambriense rodentium ampullae ge Corynebacterium s + g Paucibacter sp. 186 s + n Aeromonas sp. s − spheniscorum B11 ge Peptococcaceae f + g Cellulosilyticum g − n Acinetobacter sp. s + 423D ge Bacillaceae f + g Caldicoprobacter g + n Lactobacillus sp. s + TAB-26 ge Aerococcaceae f − g Enterobacter sp. s − n Pseudomonas sp. s − UDC345 a101-18-2 ge Carnobacteriaceae f + g Lactobacillus sp. s + n Pseudomonas sp. s − TAB-26 a111-5 ge Veillonella s + g Bifidobacterium s + n Lactococcus sp. s + montpellierensis biavatii MH5-2 ge Dialister sp. s + g Megasphaera sp. s − n Pseudomonas sp. s + E2_20 BS-4 CBMAI 1177 ge Propionibacterium s − g Pseudomonas sp. s + n Propionibacterium s − sp. MSP09A a101-18-2 sp. KPL1844 ge Streptococcus s + g Pseudomonas sp. s + n Streptococcus sp. s − pasteurianus a111-5 2011_Ileo_MS_A10 ge Flavobacteriales o − g Rothia sp. RV13 s − n Rahnella sp. s + BSP18 ge Actinobaculum s + g Klebsiella sp. s + n Shewanella g − massiliense SOR89 ge Propionimicrobium g + g Lactococcus sp. s + n Caulobacter g − MH5-2 ge Fusobacteriia c + g Pseudomonas sp. s − n Caulobacter sp. s − CBMAI 1177 ge Fusobacteriales o + g Campylobacter sp. s − n Planctomycetales o + 0402694-C0078 ge Fusobacteriaceae f + g Lactobacillus sp. s + n Planctomycetaceae f + C4I2 ge Sphingomonadales o + g Leuconostoc sp. s + n Brevundimonas s + C7I4 diminuta ge Bacteroides s + g Bacteroides sp. s + n Acetobacteraceae f + massiliensis dnLKV9 ge Campylobacterales o + g Parabacteroides sp. s − n Aeromonas s + dnLKV8 salmonicida ge Bifidobacterium s − g Bacteroides sp. s + n Streptococcus s − longum HPS0048 sobrinus ge Peptoniphilus s + g Methanomassiliicoccus g − n Alloiococcus g + sp. 2002-38328 ge Peptoniphilus s + g Anaerovibrio sp. s + n Alloiococcus otitis s + sp. 2002- 656 2300004 ge Actinomyces sp. s + g Anaerovibrio sp. s − n Pseudonocardia g − 2002-2301122 765 ge Curvibacter s + g Acidaminococcus s − n Pseudonocardiaceae f + gracilis sp. BV3L6 ge Bacillus sp. T41 s + g Finegoldia sp. s + n Brochothrix g − BV3C29 ge Sutterella s + g Cruoricaptor s − n Solanum s − stercoricanis ignavus lycopersicum ge Fastidiosipila g + g Lactococcus sp. s + n Solanum g − STM1 ge Fastidiosipila s + g Herbaspirillum sp. s + n Acidovorax g + sanguinis YR522 ge Helcococcus s − g Phascolarctobacterium s − n Sphingobium s + sueciensis sp. canine oral yanoikuyae taxon 149 ge Pseudoclavibacter g − g Peptococcus sp. s + n Micromonosporaceae f + canine oral taxon 334 ge Curvibacter g + g Proteiniclasticum g − n Turicella otitidis s − ge Porphyromonas s + g Bacteroides sp. s + n Staphylococcus s − uenonis 14(A) saprophyticus ge Dialister s + g Comamonas s − n Janthinobacterium g − propionicifaciens jiangduensis ge Dialister s + g Turicibacter sp. s − n Cutibacterium s − micraerophilus LA62 granulosum ge Porphyromonas s + g Acidaminococcus s + n Microbacterium s − somerae sp. HPA0509 lacticum ge Pelomonas g + g Propionibacterium s − n Variovorax g + sp. KPL1844 ge Peptoniphilus s + g Brachybacterium s + n Blastococcus s − sp. gpaco18A sp. S26 aggregatus ge Peptoniphilus s + g Butyricimonas sp. s + n Acinetobacter s − sp.gpac148 180-3 radioresistens ge Prevotella s + g Butyricimonas sp. s + n Leucobacter g + timonensis 214-4 ge Lysinibacillus g + g Anaerostipes s + n Nesterenkonia g − rhamnosivorans ge Howardella g + g Butyricimonas sp. s + n Dermacoccus g − GD2 ge Citrobacter sp. s g Streptococcus sp. s + n Acidimicrobiia c + BW4 2011_Ileo_MS_A10 ge Anaerococcus s + g Streptococcus sp. s + n Acidimicrobiales o + murdochii 2011_Oral_MS_D12 ge Arcanobacterium s g Veillonella sp. s + n Rubrobacteria c + sp. NML 2011_Oral_VSA_D12 06501 ge Streptococcus s + g Sutterella sp. 252 s − n Micromonosporales o + sp. 11aTha1 ge Methylobacterium s + g Roseburia sp. 499 s + n Pseudonocardiales o + sp. CBMB45 ge Prevotella s + g Anaerostipes sp. s + n Frankiales o + amnii 494a ge Alloscardovia g + g Anaerostipes sp. s + n Nocardioidaceae f + 992a ge Alloscardovia s + g Rahnella sp. FB303 s − n Intrasporangiaceae f + omnicolens ge Rhizobium sp. s + g Citrobacter sp. s − n Geodermatophilaceae f + sc-w HD4.9 ge Jonquetella g + g Megasphaera sp. s − n Cytophagaceae f + DNF00912 ge Pelomonas s + g Megasphaera sp. s − n Hymenobacter g + aquatica S6-MB2 ge Anaerobacillus s + g Candidatus g − n Acinetobacter s + alkalidiazotrophicus Methanomethylophilus ursingii ge Rhodopseudomonas s + g Rahnella sp. BSP15 s − n Dyadobacter g + boonkerdii ge Brevibacterium s − g Rahnella sp. BSP18 s + n Alteromonadales o − ravenspurgense ge Dialister s + g Bacteroides s + n Turicella g − succinatiphilus caecigallinarum ge Porphyromonas s + g Pelistega indica s − n Dermacoccaceae f + bennonis ge Bosea sp. s + g Cruoricaptor g − n Massilia g + BIWAKO-01 ge Peptoniphilus s + g Terrisporobacter s + n Sphingomonas s + duerdenii petrolearius aerolata ge Murdochiella s + g Acidaminococcales o − n Listeriaceae f − asaccharolytica ge Synergistetes p + g Odoribacteraceae f + n Dermacoccus sp. s + Ellin183 ge Atopobium sp. s + g Odoribacteraceae f + n Planctomycetes p + F0209 ge Clostridiales f f + g Barnesiellaceae f + n Planctomycetia c + XI. Incertae Sedis ge Parvimonas g + g Barnesiellaceae f + n Solirubrobacter g + ge Tenericutes p + g Hyphomicrobiaceae f − n Brachybacterium s + muris ge Corynebacterium s + m Bacteroides s + n Actinomyces s − freiburgense thetaiotaomicron genomosp. C1 ge Delftia lacustris s + m Bacteroides s − n Staphylococcus s − uniformis equorum ge Bifidobacterium s − m Bacteroides s + n Shewanellaceae f − Sp. 120 vulgatus ge Brevibacterium s + m Roseburia g + n Rubellimicrobium g + massiliense ge Porphyromonas s + m Faecalibacterium s + n Burkholderia sp. s − sp. 2024b prausnitzii CBPB-HIM ge Pseudoclavibacter s + m Herbaspirillum g + n Sphingomonas s + sp. Timone oligophenolica ge Synergistia c + m Herbaspirillum s + n Solirubrobacteraceae f + seropedicae ge Synergistales o + m Bacteroidetes p − n Methylobacterium s − adhaesivum ge Synergistaceae f + m Proteobacteria p + n Patulibacteraceae f + ge Lactobacillus s + m Firmicutes p − n Dermacoccus sp. s − sp. BL302 SST-20 ge Lactobacillus s + m Sarcina g + n Flavobacterium s − sp. BL304 sp. CS43 ge Ochrobactrum s + m Streptococcaceae f − n Moraxella sp. s + sp. SCTS14 BBN2P-02d ge Lactobacillus s − m Streptococcus g − n Solirubrobacterales o + sp. 7_1_47FAA ge Peptoniphilus s + m Clostridium g − n Kocuria sp. s + sp. oral taxon M2T9B2 836 ge Corynebacterium s + m Actinobacteria c − n Brevundimonas s + canis sp. JW23.4a ge Tessaracoccus s − m Lachnospira g + n Pseudomonas sp. s − sp. SL014B-79A DQ-01 ge Staphylococcus s − m Lachnospira s + n Microbacterium s + sp. FXY54 pectinoschiza sp. PCRB024 ge Peptoniphilus s m Betaproteobacteria c + n Cytophagia c + sp. JCM 8143 ge Corynebacterium s + m Deltaproteobacteria c + n Cytophagales o + sp. NML96- 0085 ge Anaerobacillus g + m Asaccharospora s − n Aerococcus sp. s − irregularis B43(2010) ge Peptoniphilus s + m Veillonellaceae f + n Acinetobacter sp. s + sp. oral taxon WB22-23 375 ge Peptoniphilus s + m Clostridiaceae f − n Micrococcus sp. s + coxii WB18-01 ge Herbaspirillum s + m Phascolarctobacterium s + n Nesterenkonia sp. s − huttiense faecium JS3 ge Peptoniphilus s + m Lactobacillaceae f − n Pseudomonas sp. s − sp. 1-14 PDD-27b-3 ge Peptoniphilus s + m Dorea s + n Sphingomonas s sp. 7-2 formicigenerans sp. PDD-26b-16 ge Stenotrophomonas s − m Sutterella g − n Sphingomonas s + sp. KITS-1 sp. KOPRI 25661 ge Negativicoccus g + m Pseudobutyrivibrio g − n Ferruginibacter g + ge Lactobacillus s + m Bacteroides caccae s + n Massilia sp. hp37 s + sp. Akhmr01 ge Fusobacterium s + m Verrucomicrobiales o + n Defluviimonas g + sp. ACB2 ge Fusobacterium s + m Fibrobacteres p + n Ochrobactrum sp. s + sp. CM21 LC498 ge Anaerococcus s + m Oxalobacteraceae f + n Acinetobacter sp. s − sp. 8404299 HD5.2 ge Anaerococcus s + m Burkholderiales o + n Rhizobium sp. s − sp. 8405254 10II ge Anaerococcus s + m Coriobacteriaceae f − n Brevibacterium s + sp. 9401487 sp. MBTD_CMFRI_Br02 ge Anaerococcus s + m Eggerthella g + n Moraxella sp. s − provencensis ge Enterococcus s + m Coriobacteriia c − n Yersinia g + sp. SI-4 ge Bosea sp. R- s − m Coriobacteriales o − n Yersinia s + 46060 enterocolitica ge Lactobacillus s + m Bacteroides s + n Streptococcus s + sp. acidifaciens oralis MYMRS/TEN2 ge Delftia sp. BN- s − m Blautia luti s + n Bacillus cereus s − SKY3 ge Staphylococcus s + m Bacilli c − n Peredibacter s + sp. C9I2 starrii ge Megasphaera s − m Bacteroides sp. s + n Brachybacterium s + sp. UPII 199-6 AR20 faecium ge Megasphaera s − m Bacteroides sp. s + n Kytococcus g + sp. UPII 135-E AR29 ge Corynebacterium s + m Collinsella g − n Duganella g − epidermidicanis ge Trueperella g + m Oscillospira g − n Fusibacter g − ge Mesorhizobium s + m Erysipelotrichaceae f − n Cellulomonadaceae f − sp. mat916 ge Actinomyces sp. s + m Roseburia s + n Sphingomonas s − ICM58 intestinalis aquatilis ge Jonquetella sp. s + m Rikenellaceae f − n Ochrobactrum s − BV3C4 tritici ge Prevotella sp. s + m Shuttleworthia g − n Spartobacteria c + BV3C7 ge Peptoniphilus s + m Clostridia c + n Candidatus g − sp. BV3AC2 Xiphinematobacter ge Megasphaera s + m Clostridiales o + n Albidovulum s + sp. BV3C16-1 inexpectatum ge Sphingobium s + m Lachnospiraceae f + n Alkanindiges s − sp. LC341 illinoisensis ge Anaerococcus s + m Peptostreptococcaceae f − n Albidovulum g + sp. PH9 ge Leptotrichiaceae f + m Lactobacillales o − n Bdellovibrionales o + ge Faecalibacterium s + m Dorea g + n Bacteriovoracaceae f + sp. canine oral taxon 147 ge Murdochiella g + m Desulfovibrionaceae f + n Peredibacter g + ge Varibaculum s + m Actinobacteria p − n Conchiformibius g − sp. CCUG 45114 ge Varibaculum s m Verrucomicrobiae c + n Erythrobacteraceae f + sp. CCUG 61255 ge Propionibacterium s + m Verrucomicrobiaceae f + n Staphylococcus s + sp. sp. L10 KPL2005 ge Actinomyces sp. s + m Fibrobacteria c + n Rothia sp. BBH4 s − S4-C9 ge Atopobium sp. s + m Fibrobacteraceae f + n Luteimonas s − MVA9 aestuarii ge Atopobium sp. s + m Anaerostipes g + n Acidovorax sp. s + S3MV24 LR05 ge Atopobium sp. s + m Desulfovibrionales o + n Clostridiales f f − S4-A11a XII. Incertae Sedis ge Dialister sp. S4- s + m Oscillospiraceae f − n Chryseobacterium s − 23 sp. Y1D ge Finegoldia sp. s + m Faecalibacterium g + n Pseudomonas sp. s − S3MVA9 PcFRB100 ge Gardnerella sp. s + m Fibrobacterales o + n Chryseobacterium s + S3PF20 sp. IIL-Nv8 ge Prevotella sp. s + m Alistipes g + n Kocuria sp. M1- s + S4-10 36 ge Peptoniphilus s + m Akkermansia g + n Stenotrophomonas s + sp. S4-A10 sp. Z2-S2 ge Finegoldia sp. s + m Akkermansia s + n Deinococcus sp. s + S5-A7 muciniphila UAC-77 ge Negativicoccus s + m Anaerotruncus g + n Variovorax sp. s + sp. S5-A15 MM43Nov ge Corynebacterium s + m Marvinbryantia g − n Kytococcus sp. s + frankenforstense YB227 ge Megasphaera s + m Subdoligranulum g + n Alkanindiges g + massiliensis ge Corynebacterium s + m Flavonifractor s + n Campylobacter s + sp. jw37 plautii sputorum ge Streptococcus s + m Roseburia s + n Pseudomonas s − sp. inulinivorans syringae 2011_Oral_MS_A3 ge Veillonella sp. s + m Blautia wexlerae s + n Bordetella g + 2011_Oral_VSA_D3 ge Peptoniphilus s + m Moryella g + n Pedobacter s − sp. DNF00192 heparinus ge Dialister sp. s m Erysipelotrichia c − n Bergeyella s − S7MSR5 zoohelcum ge Stenotrophomonas s + m Erysipelotrichales o − n Porphyrobacter g + sp. N017 ge Lactobacillus s − m Ruminococcaceae f + n Streptococcus s + sp. C30An8 pneumoniae ge Bradyrhizobium s − m Clostridiales f XIII. f − n Aerococcus s − sp. CCBAU Incertae Sedis viridans 53380 ge Anaerococcus s + m Blautia g + n Actinomyces s + sp. S8 87-3 israelii ge Finegoldia sp. s + m Roseburia sp. s + n Mycobacterium s + S8 F7 11SE39 chelonae ge Porphyromonas s + m Bacteroides sp. D22 s + n Brachymonas g − sp. S8 86-12 ge Actinomyces sp. s + m Alistipes sp. RMA s + n Pseudomonas s − S9 PR-21 9912 agarici ge Anaerococcus s + m Blautia faecis s + n Staphylococcus s − sp. S9 PR-16 vitulinus ge Anaerococcus s + m Selenomonadales o − n Moraxella s + sp. S9 PR-5 lincolnii ge Finegoldia sp. s + m Negativicutes c − n Alkalibacterium g + S9 AA1-5 ge Murdochiella s + m Streptococcus sp. s + n Xenophilus g + sp. S9 PR-10 BS35a ge Peptococcus sp. s + m Flavonifractor g + n Flavobacterium s − S9 Pr-12 sp. EP372 ge Peptoniphilus s + m Sutterellaceae f − n Corynebacterium s + sp. S9 PR-13 caspium ge Corynebacterium s + m Anaerostipes sp. s + n Epilithonimonas g − sp. 5_1_63FAA 713182/2012 ge Atopobium s + m Fusicatenibacter s − n Porphyrobacter s + deltae saccharivorans sp. NMC22 ge Parvibacter g + m Blautia sp. YHC-4 s + n Brevundimonas s + sp. a101-97 ge Ralstonia sp. s + m Intestinimonas g + n Massilia oculi s + A52 ge Helcococcus s − m Fusicatenibacter g − n Xenophilus sp. s + seattlensis XB36 ge Staphylococcus s + m Eisenbergiella g + n Kocuria sp. LW2- s sp. 334802 LEVI2-W ge Senegalimassilia g − m Eisenbergiella tayi s + n Pseudochrobactrum g + ge Veillonella s − m Candidatus g + n Pseudochrobactrum s + seminalis Soleaferrea sp. a001-58 ge Intestinibacter g + m Peptoclostridium g + n Flavobacterium s − johnsoniae ge Peptoniphilaceae f + m Asaccharospora g − n Brochothrix s − thermosphacta ge Tissierellia c + m Erysipelatoclostridium g − n Capnocytophaga s − cynodegmi ge Tissierellales o + m Campylobacter g − n Microbacterium s + xylanilyticum ge Spirochaetales o + m Campylobacter s − n Pseudomonas sp. s + concisus GmFRB014 ge Spirochaetes p + m Achromobacter g + n Flavobacterium s + rivuli ge Spirochaetia c + m Flavobacterium g + n Chryseobacterium s + anthropi ge Lactobacillus s − m Rhizobiales o − n Deinococcus s + taiwanensis taklimakanensis ge Phascolarctobacterium s + m Rhizobium g − n Halomonas sp. s − succinatutens VS-102 ge Leptotrichia s + m Methylobacterium g − n Alkalibacterium s + hongkongensis sp. I-5 ge Methylobacterium s + m Moraxellaceae f + n Methylobacterium s + organophilum sp. JC86 ge Bifidobacterium s + m Moraxella g + n Shewanella sp. s − choerinum bk_8 ge Mycoplasma s + m Neisseriaceae f + n Sphingobacterium s − spermatophilum sp. KB45 ge Aerococcus s + m Neisseria g + n Bradyrhizobium s + sanguinicola sp. MG-2011-42- CD ge Brevibacterium s − m Neisseria mucosa s + n Pseudonocardia s + sp. 10-1 sp. MB03-A ge Lactobacillus s + m Neisseria elongata s − n Chryseobacterium s + sp. B164 sp. PYR2 g Bacteroidaceae f − m Neisseria macacae s + n Myroides g − g Bacteroides g − m Alcaligenaceae f + n Kocuria sp. PDM-7 s − g Bacteroides s + m Enterobacteriaceae f − n Flavobacterium s + thetaiotaomicron sp. ICM 1082 g Bacteroides s + m Kluyvera g − s Bacteroidaceae f − thetaiotaomicron g Bacteroides s − m Pasteurellaceae f + s Bacteroides g − uniformis g Bacteroides s − m Actinobacillus g + s Bacteroides s − uniformis uniformis g Bacteroides s − m Haemophilus g + s Bacteroides s − vulgatus vulgatus g Bacteroides s − m Haemophilus s − s Roseburia g + vulgatus influenzae g Roseburia g − m Haemophilus s + s Faecalibacterium s + parainfluenzae prausnitzii g Roseburia g − m Bacteroides fragilis s + s Herbaspirillum g + g Faecalibacterium s − m Parabacteroides s + s Bacteroidetes p − prausnitzii distasonis g Desulfovibrio g − m Campylobacter s − s Proteobacteria p − gracilis g Desulfovibrio s + m Campylobacter s + s Firmicutes p + sp. ureolyticus g Acidaminococcus g − m Butyrivibrio g − s Sarcina g + g Herbaspirillum g + m Porphyromonas g + s Streptococcaceae f + g Herbaspirillum s + m Prevotella g − s Streptococcus g + seropedicae g Bacteroidetes p + m Fusobacterium g − s Clostridium g + g Bacteroidetes p + m Fusobacterium s − s Actinobacteria c − nucleatum g Proteobacteria p + m Fusobacterium s + s Lachnospira g + periodonticum g Proteobacteria p + m Megasphaera g − s Lachnospira s + pectinoschiza g Firmicutes p − m Gammaproteobacteria c + s Betaproteobacteria c + g Sarcina g + m Peptostreptococcus g − s Veillonellaceae f − g Sarcina g + m Micrococcaceae f − s Clostridiaceae f + g Streptococcaceae f − m Staphylococcus g + s Phascolarctobacterium g g Streptococcaceae f − m Staphylococcus s − s Phascolarctobacterium s epidermidis faecium g Streptococcus g − m Streptococcus s − s Lactobacillaceae f + gordonii g Streptococcus g − m Streptococcus s − s Dorea s thermophilus formicigenerans g Clostridium g + m Streptococcus s + s Sutterella g parasanguinis g Clostridium g + m Enterococcus g + s Pseudobutyrivibrio g + g Actinobacteria c − m Aerococcus g + s Bacteroides s caccae g Actinobacteria c − m Gemella g − s Verrucomicrobiales o + g Lachnospira g + m Atopobium g − s Verrucomicrobia p + g Lachnospira s − m Bacillales o + s Oxalobacteraceae f − pectinoschiza g Lachnospira s − m Clostridioides s + s Burkholderiales o + pectinoschiza difficile g Betaproteobacteria c − m Erysipelatoclostridium s + s Coriobacteriaceae f + ramosum g Betaproteobacteria c − m Lactobacillus g − s Coriobacteriia c + g Deltaproteobacteria c − m Lactobacillus s + s Coriobacteriales o + salivarius g Asaccharospora s − m Lactobacillus s − s Bacteroides s irregularis vaginalis acidifaciens g Veillonellaceae f − m Corynebacteriaceae f + s Blautia luti s + g Veillonellaceae f − m Actinomyces g − s Bacilli c + g Clostridiaceae f + m Actinomyces s + s Bacteroides sp. s + odontolyticus AR20 g Clostridiaceae f + m Bifidobacterium g + s Bacteroides sp. s + AR29 g Phascolarctobacterium g − m Corynebacterium g + s Collinsella g + g Phascolarctobacterium g − m Corynebacterium s + s Erysipelotrichaceae f + sp. g Phascolarctobacterium s − m Propionibacterium g + s Roseburia s faecium intestinalis g Lactobacillaceae f + m Cutibacterium s + s Bacteroidales o − acnes g Dorea s − m Mycobacteriaceae f + s Rikenellaceae f formicigenerans g Dorea s − m Mycobacterium g − s Shuttleworthia g − formicigenerans g Sutterella g − m Actinomycetales o − s Clostridia c + g Pseudobutyrivibrio g + m Rothia s − s Clostridiales o + dentocariosa g Pseudobutyrivibrio g + m Actinomycetaceae f − s Lachnospiraceae f + g Bacteroides s − m Methanobacteriales o − s Peptostreptococcaceae f + caccae g Bacteroides s − m Methanobacteriaceae f − s Lactobacillales o + caccae g Verrucomicrobiales o + m Methanobrevibacter g − s Dorea g + g Holdemania g + m Methanobrevibacter s − s Desulfovibrionaceae f smithii g Holdemania g + m Gardnerella g − s Bacteroidia c − g Holdemania s + m Gardnerella s − s Actinobacteria p − filiformis vaginalis g Holdemania s + m Peptococcus g + s Verrucomicrobiae c + filiformis g Fibrobacteres p + m Solanales o + s Verrucomicrobiaceae f + g Verrucomicrobia p + m Sphingomonas g s Anaerostipes g + g Oxalobacteraceae f + m Bacteroides s + s Desulfovibrionales o eggerthii g Burkholderiales o − m Alistipes putredinis s + s Oscillospiraceae f g Burkholderiales o − m Odoribacter s + s Faecalibacterium g + splanchnicus g Coriobacteriaceae f − m Prevotella bivia s + s Alistipes g g Eggerthella g + m Prevotella disiens s + s Akkermansia g + g Coriobacteriia c − m Alphaproteobacteria c − s Anaerotruncus g + g Coriobacteriales o − m Euryarchaeota p − s Subdoligranulum g + g Bacteroides s − m Gemella s − s Blautia wexlerae s + acidifaciens morbillorum g Blautia luti s − m Veillonella g + s Moryella g g Blautia luti s − m Veillonella parvula s + s Erysipelotrichia c + g Bacilli c − m Epsilonproteobacteria c − s Erysipelotrichales o + g Bacteroides sp. s + m Bifidobacteriaceae f − s Ruminococcaceae f + AR20 g Bacteroides sp. s + m Propionibacteriacea f + s Clostridiales f f + AR20 XIII. Incertaee Sedis g Bacteroides sp. s − m Mollicutes c + s Blautia g + AR29 g Bacteroides sp. s − m Eggerthia s + s Roseburia sp. s + AR29 catenaformis 11SE39 g Collinsella g − m Leptotrichia g + s Blautia faecis s + g Collinsella g − m Rothia g − s Selenomonadales o − g Oscillospira g + m Parvimonas micra s + s Acidaminococcaceae f g Oscillospira g + m Streptophyta p + s Negativicutes c − g Erysipelotrichaceae f − m Bilophila g + s Streptococcus sp. s + BS35a g Roseburia s − m Bilophila s + s Flavonifractor g intestinalis wadsworthia g Roseburia s − m Veillonella atypica s − s Sutterellaceae f + intestinalis g Bacteroidales o + m Corynebacterium s + s Anaerostipes sp. s + glucuronolyticum 5_1_63FAA g Bacteroidales o + m Dialister g − s Fusicatenibacter s + saccharivorans g Rikenellaceae f + m Dialister s − s Fusicatenibacter g + pneumosintes g Rikenellaceae f + m Sutterella s − s Peptoclostridium g + wadsworthensis g Shuttleworthia g − m Brevundimonas g + s Erysipelatoclostridium g + g Clostridia c + m Bradyrhizobiaceae f + s Campylobacter g + g Clostridia c + m Sphingomonadaceae f s Flavobacterium g + g Clostridiales o + m Rothia s − s Pseudomonas g − mucilaginosa g Clostridiales o + m Butyrivibrio s − s Rhizobiales o + crossotus g Lachnospiraceae f − m Abiotrophia g + s Bradyrhizobium g + g Lachnospiraceae f − m Granulicatella s − s Rhizobium g − adiacens g Peptostreptococcaceae f + m Abiotrophia s + s Mesorhizobium s − defectiva loti g Peptostreptococcaceae f + m Parabacteroides s + s Methylobacterium g + merdae g Lactobacillales o − m Bacteroides s − s Moraxellaceae f + stercoris g Dorea g − m Lautropia g + s Acinetobacter g + g Dorea g − m Lactobacillus s + s Neisseriaceae f + crispatus g Desulfovibrionaceae f − m Flavobacteriaceae f + s Neisseria g + g Bacteroidia c + m Actinobacillus s + s Neisseria mucosa s + porcinus g Bacteroidia c + m Pantoea g + s Neisseria s + macacae g Actinobacteria p − m Chryseobacterium g − s Ochrobactrum g + g Actinobacteria p − m Bergeyella g + s Enterobacteriaceae f − g Verrucomicrobiae c + m Corynebacterium s − s Citrobacter g − ulcerans g Verrucomicrobiaceae f + m Phyllobacteriaceae f s Enterobacter g − g Fibrobacteria c + m Pseudomonadales o + s Klebsiella g − g Fibrobacteraceae f + m Campylobacteraceae f − s Kluyvera g − g Anaerostipes g − m Tessaracoccus g + s Proteus g g Anaerostipes g − m Kluyvera georgiana s − s Serratia g + g Desulfovibrionales o − m Collinsella s + s Pasteurellaceae f + aerofaciens g Oscillospiraceae f + m Caulobacteraceae f + s Actinobacillus g + g Oscillospiraceae f + m Comamonadaceae f − s Haemophilus g + g Faecalibacterium g − m Delftia g − s Haemophilus s + influenzae g Fibrobacterales o + m Enterococcaceae f + s Haemophilus s + parainfluenzae g Alistipes g + m Rhizobiaceae f − s Parabacteroides s − distasonis g Alistipes g + m Gemella sp. 933-88 s + s Campylobacter s + ureolyticus g Akkermansia g + m Bifidobacteriales o − s Porphyromonas g − g Akkermansia s + m Micrococcales o − s Prevotella g − muciniphila g Hespellia g + m Corynebacteriales o + s Fusobacterium g + g Hespellia g + m Propionibacteriales o + s Fusobacterium s + nucleatum g Anaerotruncus g + m Mogibacterium g − s Gammaproteobacteria c − g Anaerotruncus g + m Aerococcus s + s Peptostreptococcus g − christensenii g Marvinbryantia g + m Dorea longicatena s + s Finegoldia magna s − g Marvinbryantia g + m Staphylococcaceae f + s Peptostreptococcus s − anaerobius g Subdoligranulum g − m Enterobacterales o − s Micrococcaceae f − g Flavonifractor s + m Candidatus p − s Micrococcus g + plautii Saccharibacteria g Bacteroides s − m Solobacterium s − s Micrococcus s − finegoldii moorei luteus g Lactonifactor s + m Granulicatella g − s Staphylococcus g + longoviformis g Roseburia s − m Flavobacteriia c + s Staphylococcus s + inulinivorans aureus g Roseburia s − m Methylobacteriaceae f − s Staphylococcus s + inulinivorans epidermidis g Blautia s − m Burkholderiaceae f + s Deinococcus- p + wexlerae Thermus g Blautia s − m Solobacterium g − s Streptococcus s + wexlerae gordonii g Lactonifactor g + m Olsenella g − s Streptococcus s + thermophilus g Moryella g + m Pseudomonadaceae f − s Streptococcus s + parasanguinis g Adlercreutzia s + m Pasteurellales o + s Enterococcus g + equolifaciens g Adlercreutzia s + m Catenibacterium g + s Aerococcus g + equolifaciens g Adlercreutzia g + m Granulicatella s − s Gemella g + elegans g Adlercreutzia g + m Finegoldia g + s Bacillales o + g Erysipelotrichia c − m Anaeroglobus g − s Bacillus g − g Erysipelotrichales o − m Anaeroglobus s − s Lysinibacillus s + geminatus sphaericus g Ruminococcaceae f + m Megamonas g − s Lactobacillus g + g Ruminococcaceae f + m Anaerococcus g + s Corynebacteriaceae f + g Clostridiales f f + m Porphyromonadaceae f + s Actinomyces g − XIII. Incertae Sedis g Clostridiales f f + m Prevotellaceae f − s Actinomyces s − XIII. Incertae odontolyticus Sedis g Acidaminococcus s − m Methanobacteria c − s Bifidobacterium g sp. D21 g Blautia g − m Varibaculum s + s Brevibacterium g − cambriense g Blautia g − m Corynebacterium s + s Corynebacterium g + spheniscorum g Roseburia sp. s − m Peptococcaceae f − s Corynebacterium s + 11SE39 diphtheriae g Roseburia sp. s − m Bacillaceae f + s Corynebacterium s − 11SE39 sp. g Bacteroides sp. s − m Aerococcaceae f + s Propionibacterium g − D22 g Alistipes sp. s + m Carnobacteriaceae f + s Cutibacterium s − RMA 9912 acnes g Blautia sp. Ser8 s − m Megasphaera s − s Mycobacteriaceae f − micronuciformis g Blautia faecis s + m Propionibacterium s − s Mycobacterium g − sp. MSP09A g Blautia faecis s + m Flavobacteriales o + s Rhodococcus g + g Selenomonadales o − m Fusobacteriaceae f − s Rhodococcus s + erythropolis g Selenomonadales o − m Sphingomonadales o + s Actinomycetales o − g Acidaminococcaceae f − m Caulobacterales o + s Rothia s − dentocariosa g Acidaminococcaceae f − m Bacteroides s + s Actinomycetaceae f − massiliensis g Negativicutes c − m Neisseriales o + s Gardnerella g + g Negativicutes c − m Campylobacterales o − s Gardnerella s + vaginalis g Eggerthella sp. s + m Subdoligranulum s + s Halomonas g + HGA1 variabile g Streptococcus s − m Alistipes finegoldii s − s Globicatella g − sp. BS35a g Flavonifractor g + m Bifidobacterium s + s Globicatella s − longum sanguinis g Flavonifractor g + m Dialister invisus s − s Phyllobacterium g g Sutterellaceae f − m Peptoniphilus sp. s + s Alistipes s 2002-2300004 putredinis g Sutterellaceae f − m Sutterella s + s Odoribacter s stercoricanis splanchnicus g Anaerostipes s − m Oribacterium g − s Porphyromonas s − sp. 5_1_63FAA asaccharolytica g Anaerostipes s − m Porphyromonas s − s Prevotella s − sp. 5_1_63FAA uenonis buccalis g Fusicatenibacter s − m Odoribacter g − s Prevotella disiens s − saccharivorans g Fusicatenibacter s − m Roseburia hominis s − s Alphaproteobacteria c + saccharivorans g Blautia sp. s − m Roseburia faecis s + s Halomonadaceae f + YHC-4 g Intestinimonas g + m Dialister s + s Arcanobacterium g + micraerophilus g Intestinimonas g + m Bacteroides s + s Gemella s + plebeius morbillorum g Fusicatenibacter g − m Bacteroides s + s Rhizobium etli s + coprocola g Fusicatenibacter g − m Parabacteroides s + s Veillonella g + goldsteinii g Eisenbergiella g − m Bacteroides s + s Veillonella s + intestinalis parvula g Eisenbergiella s − m Peptostreptococcus s − s Epsilonproteobacteria c + tayi stomatis g Candidatus g + m Peptoniphilus sp. s s Propionibacteriaceae f − Soleaferrea gpac018A g Peptoclostridium g − m Bacteroides sp. s + s Helcococcus g − XB12B g Asaccharospora g − m Parabacteroides g + s Xanthomonadaceae f − g Erysipelatoclostridium g − m Barnesiella g − s Fusobacteria p + g Erysipelatoclostridium g − m Howardella g − s Leptotrichia g − g Campylobacter g − m Streptococcus sp. s − s Rothia g − 11aTha1 g Achromobacter g − m Alloscardovia g s Actinomyces s − neuii g Flavobacterium g − m Alloscardovia s s Cutibacterium s + omnicolens avidum g Pseudomonas g + m Veillonella rogosae s − s Propionimicrobium s + lymphophilum g Rhizobiales o + m Megamonas s − s Anaerococcus s + funiformis hydrogenalis g Bradyrhizobium g + m Alistipes sp. EBA6- s − s Peptoniphilus s + 25cl2 lacrimalis g Moraxella g − m Bacteroides sp. s − s Anaerococcus s + EBA5-17 lactolyticus g Neisseriaceae f − m Oscillibacter g − s Parvimonas s + micra g Neisseria g − m Alistipes sp. s − s Anaerococcus s + NML05A004 prevotii g Neisseria s − m Barnesiella s − s Anaerococcus s mucosa intestinihominis tetradius g Neisseria s − m Parasutterella s + s Microbacterium g − macacae excrementihominis g Alcaligenaceae f + m Porphyromonas s s Dermabacter g + bennonis g Ochrobactrum g + m Synergistetes p − s Dermabacter s + hominis g Enterobacteriaceae f − m Clostridiales f XI. f + s Corynebacterium s − Incertae Sedis glucuronolyticum g Citrobacter g − m Parvimonas g − s Dialister g − g Klebsiella g − m Tenericutes p + s Stenotrophomonas g − g Kluyvera g − m Delftia lacustris s + s Brevundimonas g − g Proteus g + m Butyricimonas g + s Bradyrhizobiaceae f + g Proteus s + m Paraprevotella g + s Rhodospirillaceae f + mirabilis g Pasteurellaceae f − m Parasutterella g + s Corynebacterium s − argentoratense g Pasteurellaceae f − m Enterorhabdus g + s Brachybacterium g + g Actinobacillus g + m Bacteroides clarus s + s Rothia s + mucilaginosa g Haemophilus g − m Bifidobacterium s − s Granulicatella s + kashiwanohense adiacens g Haemophilus g − m Lautropia sp. TeTO s + s Bacteroides s − stercoris g Haemophilus s + m Anaerostipes s − s Lactobacillus s + influenzae hadrus crispatus g Haemophilus s − m Synergistia c − s Ralstonia g + parainfluenzae g Haemophilus s − m Synergistales o − s Flavobacteriaceae f − parainfluenzae g Bacteroides s + m Synergistaceae f − s Actinobacillus s + fragilis porcinus g Bacteroides s + m Anaerosporobacter g − s Meiothermus s + fragilis silvanus g Parabacteroides s − m Lactobacillus sp. s − s Pantoea g − distasonis BL302 g Parabacteroides s − m Campylobacter sp. s − s Anaerococcus s + distasonis 10_1_50 octavius g Campylobacter s + m Lactobacillus sp. s − s Kocuria g + gracilis 7_1_47FAA g Campylobacter s + m Veillonella sp. oral s + s Trueperella s − ureolyticus taxon 780 bernardiae g Butyrivibrio g + m Anaerobacillus g + s Chryseobacterium g − g Porphyromonas g − m Actinomyces sp. s − s Meiothermus g + oral taxon 175 g Prevotella g − m Peptococcus sp. s − s Facklamia g + oral taxon 168 g Fusobacterium g + m Streptococcus sp. s − s Facklamia sp. s − oral taxon G59 164-92 g Fusobacterium s + m Stomatobaculum s + s Mesorhizobium g − mortiferum longum g Fusobacterium s + m Bacteroides s + s Phyllobacteriaceae f − nucleatum stercorirosoris g Fusobacterium s + m Blautia stercoris s + s Kocuria s + periodonticum rhizophila g Desulfovibrio s + m Alistipes sp. HGB5 s − s Pseudomonadales o − piger g Megasphaera g − m Bacteroides sp. s + s Campylobacteraceae f + SLC1-38 g Weeksella g − m Lactobacillus sp. s + s Tessaracoccus g + Akhmro1 g Weeksella s − m Veillonella sp. s − s Kluyvera s − virosa CM60 georgiana g Gammaproteobacteria c − m Actinomyces sp. s − s Collinsella s + ICM54 aerofaciens g Peptostreptococcus g + m Bifidobacterium sp. s + s Actinobaculum g + MSX5B g Finegoldia s − m Campylobacter sp. s − s Caulobacteraceae f − magna FOBRC15 g Finegoldia s − m Fusobacterium sp. s + s Bacillus s + magna AS2 pseudofirmus g Peptostreptococcus s + m Fusobacterium sp. s − s Comamonadaceae f + anaerobius CM21 g Staphylococcus g − m Bradyrhizobium sp. s + s Delftia g + 68A4SAPT g Staphylococcus s − m Delftia sp. BN- s − s Enterococcaceae f + simulans SKY3 g Deinococcus- p + m Methylobacterium s s Rhizobiaceae f − Thermus sp. RK-2008-1 g Streptococcus s + m Staphylococcus sp. s + s Gemella sp. 933- s + gordonii C9I2 88 g Streptococcus s − m Megasphaera sp. s − s Micrococcales o − thermophilus UPII 199-6 g Streptococcus s − m Coprobacter s + s Corynebacteriales o + thermophilus fastidiosus g Streptococcus s + m Actinomyces sp. s − s Propionibacteriales o − parasanguinis ICM58 g Enterococcus g + m Leptotrichiaceae f + s Brevibacteriaceae f − g Enterococcus s + m Faecalibacterium s − s Dermabacteraceae f + faecalis sp. canine oral taxon 147 g Lactococcus s + m Lachnoanaerobaculum g − s Microbacteriaceae f − lactis g Lactococcus s + m Streptococcus sp. s + s Bosea g − lactis GMD6S g Aerococcus g + m Stomatobaculum g + s Achromobacter s + xylosoxidans g Gemella g − m Solobacterium sp. s − s Propionibacterium s − S4-A19 sp. V07/12348 g Atopobium g − m Megasphaera s − s Aerococcus s − massiliensis christensenii g Atopobium s + m Streptococcus sp. s + s Lactobacillus s − minutum 2011_Oral_MS_A3 fornicalis g Bacillales o − m Veillonella sp. s − s Dorea longicatena s + 2011_Oral_VSA_D3 g Bacillus g + m Eggerthia g + s Staphylococcaceae f + g Clostridioides s − m Alloprevotella g − s Enterobacterales o − difficile g Erysipelatoclostridium s − m Finegoldia sp. S8 s − s Candidatus p + ramosum F7 Saccharibacteria g Lactobacillus g + m Finegoldia sp. S9 s + s Pseudoglutamicibacter s − AA1-5 albus g Lactobacillus s − m Coprobacter g + s Solobacterium s − acidophilus moorei g Lactobacillus s + m Staphylococcus sp. s + s Granulicatella g + gasseri 3348O2 g Lactobacillus s + m Terrisporobacter g − s Flavobacteriia c − reuteri g Lactobacillus s + m Intestinibacter g + s Brucellaceae f + salivarius g Lactobacillus s − m Peptoniphilaceae f + s Deinococcales o + vaginalis g Corynebacteriaceae f − m Tissierellia c + s Methylobacteriaceae f + g Corynebacteriaceae f − m Tissierellales o + s Burkholderiaceae f + g Actinomyces g − m Veillonellales o + s Solobacterium g − g Actinomyces s + m Spirochaetales o − s Actinomyces s − odontolyticus radingae g Arthrobacter g − m Johnsonella g + s Xanthomonadales o − g Arthrobacter s − m Spirochaetes p − s Oceanospirillales o + sp. g Bifidobacterium g − m Spirochaetia c − s Pseudomonadaceae f − g Bifidobacterium g − m Bacteroides sp. s − s Pasteurellales o + XB44A g Bifidobacterium s + m Phascolarctobacterium s − s Aerosphaera g + bifidum succinatutens g Bifidobacterium s + m Campylobacter s + s Aerosphaera taetra s + bifidum showae g Bifidobacterium s + m Comamonas g + s Lactobacillus s + breve iners g Bifidobacterium s + m Neisseria flavescens s − s Finegoldia g − dentium g Brevibacterium g − m Neisseria sicca s − s Corynebacterium s + mastitidis g Corynebacterium g − m Bergeriella s − s Peptoniphilus g − denitrificans g Corynebacterium g − m Kingella oralis s + s Gallicola g + g Corynebacterium s + m Eikenella g − s Novosphingobium g + diphtheriae g Corynebacterium s + m Eikenella corrodens s − s Anaerococcus g + diphtheriae g Corynebacterium s − m Aggregatibacter s + s Brevibacterium s − sp. aphrophilus paucivorans g Propionibacterium g − m Aggregatibacter s − s Porphyromonadaceae f − segnis g Cutibacterium s − m Pasteurella g − s Prevotellaceae f + acnes g Mycobacteriaceae f − m Rodentibacter s − s Corynebacterium s − pneumotropicus spheniscorum g Mycobacterium g + m Fibrobacter g + s Bacillaceae f + g Rhodococcus g + m Porphyromonas s + s Carnobacteriaceae f + gingivalis g Actinomycetales o − m Cardiobacteriaceae f + s Deinococci c + g Actinomycetales o − m Desulfobulbus g + s Propionibacterium s − sp. MSP09A g Rothia s + m Selenomonas g + s Flavobacteriales o − dentocariosa g Actinomycetaceae f − m Capnocytophaga g − s Fusobacteriia c + g Mobiluncus g − m Capnocytophaga s + s Fusobacteriales o + gingivalis g Mobiluncus s + m Capnocytophaga s + s Fusobacteriaceae f + curtisii ochracea g Mobiluncus s − m Capnocytophaga s + s Rhodospirillales o + mulieris sputigena g Mycoplasmatales o + m Cyanobacteria p − s Caulobacterales o − g Mycoplasmataceae f + m Streptococcus s + s Neisseriales o + mutans g Mycoplasma g + m Streptococcus s − s Campylobacterales o + intermedius g Mycoplasma s + m Atopobium s − s Subdoligranulum s + hominis parvulum variabile g Ureaplasma g − m Atopobium rimae s − s Peptoniphilus sp. s − 2002-38328 g Ureaplasma s − m Lactobacillus s + s Peptoniphilus sp. s + urealyticum paracasei 2002-2300004 g Methanobacteriales o + m Actinomyces s + s Bacillus sp. T41 s + naeslundii g Methanobacteriaceae f + m Actinomyces s + s Fastidiosipila g − viscosus g Methanobrevibacter g + m Bifidobacterium s + s Fastidiosipila s − adolescentis sanguinis g Methanobrevibacter s + m Pseudopropionibacterium s − s Cloacibacterium s − smithii propionicum normanense g Gardnerella g + m Anaeroplasma g + s Helcococcus s − sueciensis g Gardnerella s − m Mycoplasma s + s Pseudoclavibacter g − vaginalis salivarium g Peptococcus g − m Methanosphaera g + s Odoribacter g g Peptococcus g − m Methanosphaera s + s Roseburia faecis s + stadtmanae g Peptococcus s − m Cardiobacterium g + s Dialister s − niger propionicifaciens g Solanales o − m Cardiobacterium s + s Porphyromonas s − hominis somerae g Bifidobacterium s − m Vagococcus g + s Pelomonas g + pseudocatenulatum g Phyllobacterium g + m Streptococcus mitis s − s Peptoniphilus sp. s − gpaco18A g Bacteroides s + m Tannerella s − s Peptoniphilus sp. s + eggerthii forsythia gpac148 g Alistipes s + m Porphyromonas s − s Parabacteroides g − putredinis endodontalis g Alistipes s + m Prevotella s − s Lysinibacillus g + putredinis intermedia g Odoribacter s + m Prevotella s − s Citrobacter sp. s − splanchnicus nigrescens BW4 g Odoribacter s + m Prevotella oralis s − s Pseudomonas sp. s − splanchnicus G1116 g Porphyromonas s + m Prevotella oris s − s Anaerococcus s − asaccharolytica murdochii g Prevotella s − m Prevotella oulorum s + s Acinetobacter sp. s + buccalis RBE2CD-114 g Prevotella s + m Actinomyces sp. s + s Streptococcus sp. s + disiens 11aTha1 g Cronobacter s + m Dolosigranulum g + s Methylobacterium s − sakazakii sp. CBMB45 g Alphaproteobacteria c + m Dolosigranulum s + s Rhizobium sp. sc-w s + pigrum g Arcanobacterium g + m Acetitomaculum g − s Pelomonas s + aquatica g Arcanobacterium s + m Kingella g + s Bacteroides sp. s + haemolyticum EBA5-17 g Euryarchaeota p + m Mogibacterium s − s Pantoea vagans s − timidum g Veillonella g + m Terrisporobacter s − s Anaerobacillus s + glycolicus alkalidiazotrophicus g Veillonella g + m Veillonella dispar s + s Brevibacterium s − ravenspurgense g Veillonella s + m Leptotrichia s − s Parasutterella s + parvula buccalis excrementihominis g Epsilonproteobacteria c − m Porphyromonas s + s Porphyromonas s + catoniae bennonis g Bifidobacteriaceae f − m Corynebacterium s + s Clostridiales f XI. f + matruchotii Incertae Sedis g Bifidobacteriaceae f − m Catonella g − s Parvimonas g + g Propionibacteriaceae f − m Catonella morbi s − s Corynebacterium s + freiburgense g Mollicutes c + m Filifactor g − s Delftia lacustris s + g Helcococcus g − m Capnocytophaga s + s Butyricimonas g granulosa g Rhodobacteraceae f − m Capnocytophaga s + s Parasutterella g + haemolytica g Leptotrichia g − m Actinomyces s + s Phyllobacterium s georgiae sp. T50 g Rothia g + m Actinomyces s + s Porphyromonas s − gerencseriae sp. 2024b g Actinomyces s + m Actinomyces s − s Pseudoclavibacter s − neuii meyeri sp. Timone g Cutibacterium s + m Actinomyces s + s Klebsiella sp. B12 s − avidum graevenitzii g Propionimicrobium s + m Acidobacteria p − s Ochrobactrum sp. s + lymphophilum SCTS14 g Anaerococcus s + m Prevotella pallens s − s Lactobacillus sp. s hydrogenalis 7_1_47FAA g Peptoniphilus s − m Corynebacterium s − s Veillonella sp. s + lacrimalis durum oral taxon 780 g Anaerococcus s + m Thermoanaerobacterales o + s Microbacterium s + lactolyticus yannicii g Parvimonas s − m Streptococcus s + s Corynebacterium s + micra peroris canis g Anaerococcus s + m Streptococcus s − s Tessaracoccus sp. s + prevotii infantis SL014B-79A g Anaerococcus s + m Alloprevotella s − s Staphylococcus s − tetradius tannerae sp. FXY54 g Anaerococcus s − m Parascardovia s − s Anaerobacillus g + vaginalis denticolens g Anaerococcus s − m Centipeda g − s Corynebacterium s + vaginalis sp. NML 97-0186 g Lactobacillus s + m Centipeda s − s Actinomyces sp. s johnsonii periodontii oral taxon 175 g Streptophyta p − m Eggerthella lenta s + s Peptoniphilus sp. s − oral taxon 375 g Bilophila g − m Gemella sanguinis s + s Streptococcus sp. s oral taxon G59 g Bilophila s − m Cryptobacterium g − s Brevundimonas s + wadsworthia sp. V3M6 g Dermabacter g + m Cryptobacterium s − s Stomatobaculum s − curtum longum g Veillonella s + m Rothia sp. CCUG s + s Herbaspirillums s − atypica 25688 huttiense g Corynebacterium s + m Mannheimia s − s Peptoniphilus sp. s + glucuronolyticum granulomatis 7-2 g Dialister g − m Mogibacterium s − s Ralstonia sp. s + pumilum S2.MAC.005 g Dialister g − m Mycoplasma s + s Stenotrophomonas s + falconis sp. KITS-1 g Dialister s + m Mycoplasma s − s Negativicoccus g − pneumosintes subdolum g Sneathia s − m Catenibacterium s + s Shinella sp. DR33 s − sanguinegens mitsuokai g Sutterella s + m Anaerovorax g − s Acinetobacter sp. s − wadsworthensis C-S-NA3 g Bradyrhizobiaceae f + m Leptotrichia s + s Stenotrophomonas s + trevisanii sp. C-S-TSA3 g Rhodospirillaceae f + m Parasporobacterium g − s Veillonella sp. s − CM60 g Corynebacterium s + m Sphingobacteriia c + s Actinomyces sp. s argentoratense ICM54 g Brachybacterium g + m Cardiobacteriales o + s Fusobacterium s + sp. ACB2 g Rothia s + m Filifactor alocis s − s Veillonella sp. s mucilaginosa MSA12 g Butyrivibrio s − m Leptotrichia wadei s + s Anaerococcus sp. s crossotus 8404299 g Abiotrophia g − m Leptotrichia s + s Anaerococcus sp. s + hofstadii 8405254 g Granulicatella s − m Leptotrichia shahii s + s Anaerococcus sp. s + adiacens 9401487 g Abiotrophia s − m Leptotrichia s − s Anaerococcus s + defectiva goodfellowii provencensis g Parabacteroides s + m Actinomyces sp. s + s Bradyrhizobium s − merdae oral strain Hal- sp. 68A4SAPT 1065 g Parabacteroides s + m Rothia aeria s − s Delftia sp. BN- s − merdae SKY3 g Bacteroides s − m Victivallis g + s Methylobacterium s + stercoris sp. RK-2008-1 g Lautropia g + m Anaeroplasmatales o − s Staphylococcus s + sp. C9I2 g Lactobacillus s − m Anaeroplasmataceae f − s Megasphaera sp. s + rhamnosus UPII 199-6 g Flavobacteriaceae f − m Alysiella g + s Sphingomonas s sp. 540 g Actinobacillus s + m Tannerella g − s Corynebacterium s − porcinus epidermidicanis g Pantoea g + m Scardovia g − s Trueperella g − g Anaerococcus s − m Parascardovia g − s Mesorhizobium s + octavius sp. mat916 g Actinotignum s − m Sphingobacteriales o + s Peptoniphilus sp. s − schaalii BV3AC2 g Trueperella s − m Chloroflexi p − s Sphingobium sp. s − bernardiae LC341 g Bergeyella g − m Acidobacteriia c − s Anaerococcus sp. s − PH9 g Corynebacterium s + m Acidobacteriales o + s Leptotrichiaceae f − ulcerans g Facklamia g + m Desulfobacterales o + s Faecalibacterium s + sp. canine oral taxon 147 g Facklamia sp. s + m Desulfobulbaceae f + s Murdochiella g + 164-92 g Facklamia sp. s + m Thermodesulfobiaceae f + s Varibaculum sp. s + 1440-97 CCUG 45114 g Phyllobacteriaceae f + m Leptotrichia s + s Dermabacter sp. s − genomo sp. C1 HFH0086 g Pseudomonadales o − m Megasphaera s − s Propionibacterium s + genomo sp. C1 sp. KPL2005 g Campylobacteraceae f − m Scardovia wiggsiae s − s Stomatobaculum g + g Tessaracoccus g − m Selenomonas s + s Negativicoccus s − genomo sp. P5 sp. S5-A15 g Kluyvera s − m Victivallaceae f + s Corynebacterium s + georgiana sp. jw37 g Collinsella s − m Lentisphaerae p + s Veillonella sp. s + aerofaciens 2011_Oral_VSA_D3 g Collinsella s − m Neisseria s + s Alloprevotella g + aerofaciens bacilliformis g Campylobacter s − m Actinomyces s + s Peptoniphilus sp. s − hominis dentalis DNF00192 g Actinobaculum g − m Victivallales o + s Stenotrophomonas s + sp. N017 g Bifidobacterium s + m Bacteroides nordii s + s Bradyrhizobium s + gallicum sp. CCBAU 53380 g Comamonadaceae f + m Anaerolineae c − s Anaerococcus sp. s − S8 87-3 g Delftia g − m Capnocytophaga s − s Anaerococcus sp. s − sp. AHN9576 S9 PR-16 g Enterococcaceae f + m Capnocytophaga s + s Finegoldia sp. S9 s + sp. AHN9687 AA1-5 g Atopobium s + m Bergeriella g − s Peptococcus sp. s + vaginae S9 Pr-12 g Slackia g − m Capnocytophaga s − s Peptoniphilus sp. s − sp. AHN9756 S9 PR-13 g Gemella sp. s − m Streptococcus s + s Ralstonia sp. A52 s − 933-88 dentirousetti g Bifidobacteriales o − m Parabacteroides s − s Staphylococcus s + johnsonii sp. 334802 g Bifidobacteriales o − m Opitutae c − s Terrisporobacter g g Micrococcales o − m Puniceicoccales o − s Intestinibacter g + R Corynebacteriales o − m Aggregatibacter g + s Peptoniphilaceae f − R Corynebacteriales o − m Prevotella s + s Tissierellia c − nanceiensis R Propionibacteriales o − m Veillonella sp. s + s Tissierellales o − 6_1_27 g Brevibacteriaceae f − m Desulfovibrio sp. s + s Veillonellales o − 3_1_syn3 g Dermabacteraceae f − m Actinomyces s − s Selenomonadaceae f + massiliensis g Microbacteriaceae f − m Lachnoanaerobaculum s − s Cutibacterium g + saburreum g Nocardiaceae f + m Bacteroides sp. s − s Deinococcus g + 3_1_40A g Achromobacter s − m Gordonibacter s + s Lactococcus g + xylosoxidans pamelaeae g Mogibacterium g − m Atopobium sp. s − s Johnsonella g − DMCT15023 g Aerocoecus s + m Olsenella sp. s − s Deinococcaceae f + christensenii F0004 g Eremococcus s + m Bacteroides sp. s − s Comamonas g − coleocola DJF_B097 g Lactobacillus s − m Actinomyces oris s − s Selenomonas g − fornicalis g Dorea s − m Butyricimonas s + s Capnocytophaga g + longicatena virosa g Dorea s − m Anaerotruncus sp. s + s Cyanobacteria p + longicatena NML 070203 g Oligella g + m Leptotrichia s + s Actinomyces s − hongkongensis viscosus g Oligella s + m Chitinophagaceae f + s Prevotella s − urethralis oulorum g Staphylococcaceae f − m Parabacteroides s − s Dolosigranulum g − gordonii g Enterobacterales o − m Prevotella s + s Dolosigranulum s − aurantiaca pigrum g Candidatus p − m Neisseria s + s Corynebacterium s − Saccharibacteria shayeganii matruchotii g Pseudoglutamicibacter s − m Lachnoanaerobaculum s − s Actinomyces s − albus umeaense georgiae g Solobacterium s − m Rhizobium sp. T45 s − s Actinomyces s − moorei gerencseriae g Veillonella ratti s + m Odoribacter laneus s − s Acidobacteria p − g Lactobacillus s + m Gordonibacter g + s Corynebacterium s − jensenii durum g Granulicatella g − m Slackia sp. NATTS s + s Streptococcus s − peroris g Flavobacteriia c − m Fretibacterium s − s Centipeda g − fastidiosum g Brucellaceae f + m Oribacterium sp. s − s Centipeda s − oral taxon 078 periodontii g Deinococcales o + m Prevotella sp. oral s + s Sphingobacteriia c − taxon 299 g Solobacterium g + m Leptotrichia sp. s + s Leptotrichia s + oral taxon 225 wadei g Actinomyces s − m Oribacterium sp. s − s Leptotrichia s − radingae oral taxon 102 hofstadii g Actinomyces s − m Alloprevotella rava s − s Sphingobacteriales o − turicensis g Olsenella g + m Prevotella sp. WAL s + s Chloroflexi p − 2039G g Xanthomonadales o + m Neisseria skkuensis s + s Acidobacteriia c + g Pseudomonadaceae f + m Actinomyces sp. s + s Acidobacteriales o − oral taxon 178 g Pasteurellales o − m Capnocytophaga s − s Selenomonas s − sp. oral taxon 338 genomo sp. P5 g Pasteurellales o − m Actinomyces sp. s − s Actinomyces s − oral taxon 170 dentalis g Catenibacterium g − m Actinomyces sp. s − s Aggregatibacter g + oral taxon 448 g Catenibacterium g − m Capnocytophaga s + s Lachnoanaerobaculum s − sp. oral taxon 335 saburreum g Globicatella s + m Capnocytophaga s + s Rhizobium sp. s − sulfidifaciens sp. oral taxon 336 T45 g Aerosphaera g − m Desulfobulbus sp. s + s Actinomyces sp. s − oral taxon 041 oral taxon 448 g Aerosphaera s − m Leptotrichia sp. s + s Brevundimonas s + taetra oral taxon 223 sp FXJ8.080 g Lactobacillus s + m Oribacterium sp. s − s Pseudomonas sp. s + iners oral taxon 108 KB23 g Finegoldia g + m Prevotella sp. oral s + s Lysinibacillus sp. s taxon G60 SJ2SN2 g Finegoldia g + m Shuttleworthia sp. s − s Rothia sp. THG- s + oral taxon G69 N7 g Anaeroglobus g + m Streptococcus sp. s + s Bacteroides sp. s − oral taxon G63 J1511 g Anaeroglobus s + m Tannerella sp. oral s + s Moraxella s − geminatus taxon HOT-286 catarrhalis g Pseudoglutamicibacter s + m Parvimonas sp. oral s − s Enterobacter s + cumminsii taxon 393 cloacae g Megamonas g − m Caldicoprobacteraceae f + s Morganella g g Corynebacterium s − m Leptotrichia sp. s + s Morganella s mastitidis PG10 morganii g Peptoniphilus g − m Leptotrichia sp. s − s Aeromonas g − PTE15 g Gallicola g − m Lactobacillus sp. s − s Leuconostoc g + NRCT-KU 1 g Novosphingobium g − m Methylobacterium s − s Weissella g + longum g Anaerococcus g − m Capnocytophaga s − s Rhodocyclaceae f − sp. CM59 g Sneathia g − m Mogibacterium sp. s − s Pseudomonas s − CM50 monteilii g Thalassospira g + m Mogibacterium sp. s − s Leuconostocaceae f + CM96 g Brevibacterium s − m Selenomonas sp. s − s Aeromonadaceae f − paucivorans CM52 g Eremococcus g + m Actinomyces sp. s + s Aeromonadales o − ICM34 g Porphyromonadaceae f + m Actinomyces sp. s − s Azospira g + ICM41 g Porphyromonadaceae f + m Actinomyces sp. s − s Raoultella g − ICM47 g Prevotellaceae f − m Atopobium sp. s − s Planococcaceae f + ICM57 g Prevotellaceae f − m Fusobacterium sp. s + s Acidobacteriaceae f − CM22 g Lactobacillus s − m Oribacterium sp. s − s Rhodocyclales o − sp. CR-609S CM12 g Facklamia s − m Lachnoanaerobaculum s + s Paucibacter g − hominis sp. OBRC5-5 g Actinomyces s + m Lachnoanaerobaculum s − s Paucibacter sp. s − hongkongensis sp. MSX33 186 g Lactobacillus s + m Brevundimonas sp. s + s Pseudomonas sp. s − coleohominis FXJ8.080 a101-18-2 g Methanobacteria c + m Vagococcus sp. s + s Pseudomonas sp. s − SIX2(2011) a111-5 g Varibaculum g − m Moraxella sp. s − s Finegoldia sp. s − WB19-16 BV3C29 g Varibaculum g − m Lachnoanaerobaculum s + s Comamonas s − orale jiangduensis g Varibaculum s − m Actinomyces sp. s − s Propionibacterium s − cambriense ZSY-1 sp. KPL1844 g Peptococcaceae f + m Pseudomonas sp. s − s Hyphomicrobiaceae f + KB23 g Peptococcaceae f + m Lysinibacillus sp. s + s Shewanella g + SJ2SN2 g Bacillaceae f + m Fusobacterium sp. s + s Lysobacter g − OBRC1 g Aerococcaceae f + m Veillonella sp. JL-2 s s Caulobacter g + g Carnobacteriaceae f − m Neisseria oralis s + s Planctomycetales o + g Megasphaera s + m Veillonella s − s Gemmata g − micronuciformis tobetsuensis g Acidaminococcus s − m Actinomyces sp. s + s Planctomycetaceae f + intestini ph3 g Veillonella s − m Neisseria sp. s + s Elizabethkingia s − montpellierensis 104(2012) meningoseptica g Deinococci c + m Phascolarctobacterium s − s Brevundimonas s + sp. 377 diminuta g Dialister sp. s − m Parabacteroides s + s Xanthomonas g + E2_20 faecis g Dialister sp. s − m Streptococcus sp. s − s Acetobacteraceae f − E2_20 2011_Oral_MS_H4 g Propionibacterium s − m Veillonella sp. s + s Acinetobacter s + sp. MSP09A 2011_Oral_VSA_B12 baumannii g Flavobacteriales o − m Rothia sp. THG-N7 s + s Moraxella s + nonliquefaciens g Propionimicrobium g + m Capnocytophaga s + s Zymomonas g − sp. HS5_2W_I24 g Fusobacteriaceae f + m Actinomyces sp. s − s Aeromonas s − S6-Spd3 salmonicida g Rhodospirillales o + m Lentisphaeria c + s Streptococcus s + sobrinus g Rhodobacterales o − m Candidatus g + s Bacillus s − Saccharimonas megaterium g Bacteroides s − m Bacteroides sp. s + s Geobacillus s − massiliensis J1511 stearothermophilus g Neisseriales o − m Tessaracoccus s + s Kurthia g − lapidicaptus g Campylobacterales o − m Fretibacterium g − s Nocardioides g − g Subdoligranulum s − m Robinsoniella sp. s + s Pseudonocardia g + variabile KNHS210 g Alistipes s − m Butyricimonas s + s Streptomyces g − finegoldii faecihominis g Alistipes s − m Butyricimonas s + s Gordonia terrae s − finegoldii paravirosa g Bifidobacterium s − m Alistipes inops s + s Streptomycetaceae f − longum g Bifidobacterium s − m [Collinsella] s − s Pseudonocardiaceae f − longum massiliensis g Dialister invisus s − n Bacteroidaceae f + s Solanaceae f − g Peptoniphilus s + n Bacteroides g + s Solanum s − sp. 2002-38328 lycopersicum g Peptoniphilus s − n Bacteroides s + s Solanum g − sp. 2002- vulgatus 2300004 g Actinomyces sp. s − n Roseburia g + s Basidiomycota p − 2002-2301122 g Sutterella s − n Faecalibacterium s + s Acidovorax g − stercoricanis prausnitzii g Fastidiosipila g − n Herbaspirillum g + s Acidothermus g − g Fastidiosipila s − n Bacteroidetes p + s Sphingobacterium g − sanguinis g Helcococcus s − n Proteobacteria p − s Turicella otitidis s + sueciensis g Bacteroides sp. s + n Firmicutes p + s Staphylococcus s − 35AE37 saprophyticus g Pseudoclavibacter g − n Sarcina g + s Microlunatus g + g Oribacterium g + n Streptococcaceae f + s Rhodoplanes g + g Porphyromonas s + n Streptococcus g + s Janthinobacterium g + uenonis g Odoribacter g + n Clostridium g s Cutibacterium s + granulosum g Odoribacter g + n Actinobacteria c − s Microbacterium s − lacticum g Corynebacterium s + n Lachnospira g s Exiguobacterium g − sp. 2300500 g Bacteroides s + n Lachnospira s s Variovorax g − salyersiae pectinoschiza g Bacteroides s + n Betaproteobacteria c − s Dietzia g + salyersiae g Roseburia s − n Deltaproteobacteria c + s Blastococcus s − hominis aggregatus g Roseburia s − n Veillonellaceae f + s Acinetobacter s + hominis radioresistens g Roseburia s − n Clostridiaceae f + s Paenibacillus g − faecis g Roseburia s − n Lactobacillaceae f − s Chlamydiales o − faecis g Dialister s − n Dorea s + s Pseudomonas s − propionicifaciens formicigenerans citronellolis g Dialister s − n Pseudobutyrivibrio g + s Malassezia g − micraerophilus g Bacteroides s − n Verrucomicrobiales o + s Leucobacter g + plebeius g Parabacteroides s − n Verrucomicrobia p + s Dermacoccus g + goldsteinii g Alistipes shahii s + n Oxalobacteraceae f + s Malassezia s − restricta g Alistipes shahii s + n Burkholderiales o − s Sphingobacteriaceae f − g Bacteroides s + n Coriobacteriaceae f + s Acidimicrobiia c + intestinalis g Pelomonas g + n Coriobacteriia c + s Acidimicrobiales o + g Peptostreptococcus s + n Coriobacteriales o + s Rubrobacteria c − stomatis g Bergeyella sp. s − n Blautia luti s + s Pseudonocardiales o − AF14 g Bacteroides s + n Bacilli c + s Streptomycetales o − dorei g Bacteroides s + n Bacteroides sp. s + s Frankiales o − dorei AR20 g Peptoniphilus s − n Bacteroides sp. s s Nocardioidaceae f − sp. gpac018A AR29 g Peptoniphilus s − n Collinsella g + s Promicromonosporaceae f − sp. gpac148 g Bacteroides sp. s + n Roseburia s + s Dietziaceae f + XB12B intestinalis g Moryella s − n Bacteroidales o + s Nakamurellaceae f − indoligenes g Parabacteroides g − n Rikenellaceae f + s Acidothermaceae f − g Parabacteroides g − n Shuttleworthia g − s Marmoricola g + g Prevotella s − n Clostridia c + s Marmoricola s − timonensis aurantiacus g Barnesiella g + n Clostridiales o + s Facklamia s + tabacinasalis g Barnesiella g + n Lachnospiraceae f + s Cytophagaceae f − g Howardella g + n Peptostreptococcaceae f + s Hymenobacter g − g Citrobacter sp. s − n Lactobacillales o + s Frigoribacterium g − BW4 g Anaerococcus s − n Dorea g + s Acinetobacter s − murdochii ursingii g Arcanobacterium s + n Bacteroidia c + s Dyadobacter g − sp. NML 06501 g Cronobacter g + n Actinobacteria p − s Roseomonas g − g Streptococcus s + n Verrucomicrobiae c + s Geobacillus g − sp. 11aTha1 g Prevotella s − n Verrucomicrobiaceae f s Corynebacterium s + amnii capitovis g Alloscardovia g − n Anaerostipes g + s Corynebacterium s + felinum g Alloscardovia s − n Oscillospiraceae f s Verrucomicrobia f + omnicolens subdivision 3 g Veillonella s + n Faecalibacterium g + s Alteromonadales o + rogosae g Jonquetella s + n Alistipes g + s Gemmatimonadetes p − anthropi g Pelomonas s + n Akkermansia g + s Turicella g + aquatica g Megamonas s − n Akkermansia s + s Dermacoccaceae f + funiformis muciniphila g Alistipes sp. s + n Anaerotruncus g s Massilia g − EBA6-25cl2 g Bacteroides sp. s − n Subdoligranulum g + s Microbacterium s + EBA5-17 sp. absalar g Bacteroides sp. s + n Roseburia s + s Cellulosimicrobium g − EBA5-17 inulinivorans g Paraprevotella s − n Blautia wexlerae s + s Malasseziales o − clara g Oscillibacter g + n Moryella g s Gemmatimonas g − g Oscillibacter g + n Ruminococcaceae f + s Aurantimonas g − g Alistipes sp. s + n Clostridiales f XIII. f − s Sphingomonas s − NML05A004 Incertae Sedis aerolata g Alistipes sp. s + n Blautia g + s Paenibacillaceae f − NML05A004 g Brevibacterium s + n Roseburia sp. s + s Thermoactinomy f + ravenspurgense 11SE39 cetaceae g Dialister s + n Blautia faecis s + s Dermacoccus sp. s − succinatiphilus Ellin183 g Barnesiella s + n Selenomonadales o + s Thermomicrobiales o − intestinihominis g Barnesiella s + n Negativicutes c + s Microbacterium s − intestinihominis paraoxydans g Parasutterella s − n Streptococcus sp. s + s Planctomycetes p + excrementihominis BS35a g Parasutterella s − n Flavonifractor g s Planctomycetia c + excrementihominis g Porphyromonas s + n Anaerostipes sp. s + s Chlamydiae p − bennonis 5_1_63FAA g Cloacibacterium g − n Fusicatenibacter s + s Chlamydiia c − saccharivorans g Gemella s + n Fusicatenibacter g + s Skermanella g + asaccharolytica g Peptoniphilus s + n Erysipelatoclostridium g + s Roseomonas s − duerdenii cervicalis g Peptoniphilus s + n Campylobacter g − s Solirubrobacter g − koenoeneniae g Murdochiella s + n Achromobacter g + s Brachybacterium s − asaccharolytica muris g Synergistetes p + n Flavobacterium g + s Gemmatimonadetes c − g Cloacibacillus g + n Pseudomonas g − s Gemmatimonadales o − g Cloacibacillus s + n Rhizobiales o + s Gemmatimonadaceae f − evryensis g Atopobium sp. s − n Bradyrhizobium g − s Kocuria marina s − F0209 g Clostridiales f f − n Rhizobium g + s Actinomyces s − XI. Incertae genomo sp. C1 Sedis g Parvimonas g − n Mesorhizobium loti s + s Salinibacterium g + g Tenericutes p + n Methylobacterium g + s Cryomorphaceae f − g Corynebacterium s + n Moraxellaceae f − s Aurantimonadaceae f − freiburgense g Delftia lacustris s + n Acinetobacter g + s Lysobacter s − brunescens g Butyricimonas g − n Moraxella g + s Shewanellaceae f + g Bifidobacterium s + n Neisseriaceae f − s Rubellimicrobium g − sp. 120 g Brevibacterium s − n Neisseria g − s Elizabethkingia g − massiliense g Paraprevotella g + n Neisseria mucosa s − s Solirubrobacteraceae f − g Parasutterella g − n Neisseria elongata s − s Dietzia cinnamea s − g Parasutterella g − n Neisseria macacae s − s Fluviicola g − g Enterorhabdus g + n Alcaligenaceae f + s Trueperaceae f − g Bacteroides s + n Ochrobactrum g + s Truepera g − clarus g Bacteroides s + n Enterobacteriaceae f + s Methylobacterium s − clarus adhaesivum g Sutterella sp. s − n Citrobacter g + s Xanthobacteraceae f − YIT 12072 g Bifidobacterium s + n Enterobacter g − s Patulibacteraceae f − kashiwanohense g Porphyromonas s + n Klebsiella g + s Patulibacter g − sp. 2024b g Lautropia sp. s + n Kluyvera g + s Solirubrobacter s − TeTO sp. Gsoil 921 g Pseudoclavibacter s + n Proteus g + s Sphingomonas s − sp. Timone anadarae g Anaerostipes s − n Pasteurellaceae f − s Nubsella s − hadrus zeaxanthinifaciens g Anaerostipes s − n Actinobacillus g − s Skermanella s + hadrus aerolata g Synergistia c + n Haemophilus g − s Actinomycetospora g − g Synergistales o + n Haemophilus s − s Acinetobacter sp. s + influenzae RBE2CD-76 g Synergistaceae f + n Haemophilus s + s Flavobacterium s + parainfluenzae lindanitolerans g Klebsiella sp. s − n Campylobacter s − s Sphingomonas s + B12 ureolyticus mathurensis g Anaerosporobacter g − n Porphyromonas g − s Exobasidiomycetes c − g Lactobacillus s + n Prevotella g + s Stenotrophomonas s − sp. BL302 pavanii g Ochrobactrum s + n Fusobacterium g + s Mycobacterium s − sp. SCTS14 sp. 18 GUW g Anaerostipes s + n Fusobacterium s + s Pseudolabrys g − sp. 3_2_56FAA nucleatum g Lactobacillus s − n Fusobacterium s − s Bacillus safensis s − sp. 7_1_47FAA periodonticum g Peptoniphilus s + n Megasphaera g + s Nubsella g − sp. oral taxon 836 g Veillonella sp. s − n Rhodopseudomonas g + s Microbacterium s − oral taxon 780 sp. GGC-P2D g Corynebacterium s − n Gammaproteobacteria c − s Dermacoccus sp. s − canis SST-20 g Tessaracoccus s − n Peptostreptococcus g + s Flavobacterium s + sp. SL014B-79A sp. CS43 g Bilophila sp. s − n Finegoldia magna s + s Methylobacterium s − 4_1_30 sp. Gh-143 g Peptoniphilus s + n Peptostreptococcus s + s Solirubrobacterales o − sp. JCM 8143 anaerobius g Anaerobacillus g − n Micrococcaceae f + s Acinetobacter s + kyonggiensis g Corynebacterium s − n Micrococcus g + s Acinetobacter sp. s + sp. NML 97- T133 0186 g Peptoniphilus s + n Micrococcus luteus s + s Iamiaceae f + sp. oral taxon 375 g Streptococcus s − n Staphylococcus g + s Rummeliibacillus g − sp. oral taxon G59 g Streptococcus s − n Staphylococcus s + s Chryseomicrobium s + sp. oral taxon aureus imtechense G59 g Lactobacillus s + n Deinococcus- p + s Brevundimonas s − sp. TAB-22 Thermus sp. JW23.4a g Peptoniphilus s + n Streptococcus s − s Pseudomonas sp. s − coxii thermophilus DQ-01 g Stomatobaculum s + n Streptococcus s + s Malasseziaceae f − longum parasanguinis g Bacteroides s + n Enterococcus g + s Pseudomonas sp. s − stercorirosoris PcFRB119 g Blautia stercoris s − n Enterococcus s − s Methylobacterium s − faecalis sp. 399 g Blautia stercoris s − n Lactococcus lactis s + s Methylobacterium s − sp. 57 g Peptoniphilus s − n Aerococcus g + s Cytophagia c − sp. 1-14 g Peptoniphilus s − n Aerococcus urinae s − s Cytophagales o − sp. 1-14 g Peptoniphilus s + n Gemella g + s Pseudomonas sp. s − sp. 7-2 PcFRB072 g Ralstonia sp. s + n Bacillales o + s Chryseomicrobium g + S2.MAC.005 g Alistipes sp. s + n Bacillus g + s Bryobacter g − HGB5 g Negativicoccus g − n Lysinibacillus s + s Novosphingobium s + sphaericus sp. THA_AIK7 g Bacteroides sp. s + n Lactobacillus g − s Staphylococcus s + SLC1-38 sp. C-D-MA2 g Lactobacillus s + n Lactobacillus s − s Pseudomonas sp. s + sp. Akhmro1 plantarum KVS86 g Stenotrophomonas s + n Lactobacillus s + s Pseudomonas sp. s + sp. C-S- reuteri PKG89 TSA3 g Actinomyces sp. s + n Lactobacillus s − s Acinetobacter sp. s − ICM54 salivarius C049 g Bifidobacterium s + n Corynebacteriaceae f − s Granulicella g + sp. MSX5B g Fusobacterium s − n Actinomyces g + s Mycobacterium s − sp. AS2 sp. CO183 g Fusobacterium s + n Actinomyces s − s Acinetobacter s + sp. CM21 odontolyticus sp. WB22-23 g Veillonella sp. s + n Arthrobacter g + s Micrococcus sp. s + AS16 WB18-01 g Veillonella sp. s + n Bifidobacterium s + s Dietzia sp. ISA13 s − MSA12 bifidum g Anaerococcus s + n Brevibacterium g − s Psychrobacter sp. s + sp. 8404299 S1-1 g Anaerococcus s − n Corynebacterium g − s Pseudomonas sp. s + sp. 8405254 PDD-27b-3 g Anaerococcus s − n Corynebacterium s − s Sphingomonas s − provencensis diphtheriae sp. KOPRI 25661 g Enterococcus s − n Corynebacterium s + s Gaiella occulta s − sp. SI-4 sp. g Delftia sp. BN- s − n Propionibacterium g − s Ferruginibacter g − SKY3 g Enterococcus s + n Cutibacterium s + s Sphingobacterium s − sp. C6I11 acnes sp. HTc4-a g Brachybacterium s + n Mycobacteriaceae f + s Amnibacterium g − sp. NIO-27 g Enterobacter s + n Rhodococcus g + s Rhizobium s − sp. BS2-1 nepotum g Megasphaera s − n Rhodococcus s − s Sandaracinaceae f − sp. UPII 199-6 erythropolis g Corynebacterium s + n Actinomycetales o − s Comamonas sp. s − epidermidicanis HM_AF10 g Trueperella g − n Rothia s + s Massilia sp. hp37 s − dentocariosa g Coprobacter s − n Mobiluncus s + s Defluviimonas g + fastidiosus mulieris g Coprobacter s − n Gardnerella g + s Ochrobactrum sp. s − fastidiosus LC498 g Actinomyces sp. s + n Gardnerella s + s Gaiellales o − ICM58 vaginalis g Jonquetella sp. s − n Peptococcus g − s Gaiellaceae f − BV3C4 g Prevotella sp. s + n Halomonas g − s Gaiella g − BV3C7 g Peptoniphilus sp. s − n Solanales o + s Aureimonas s − BV3AC2 phyllosphaerae g Megasphaera s − n Globicatella g − s Massilia sp. S5- s + sp. BV3C16-1 252-1 g Anaerococcus s − n Globicatella s − s Stenotrophomonas s − sp. PH9 sanguinis sp. I_35- G5PA9A1 g Leptotrichiaceae f − n Sphingomonas g − s Stenotrophomonas s − sp. I_63- LFP1A9B1 g Faecalibacterium s − n Phyllobacterium g s Sphingomonas s − sp. canine sp. HEXBA01 oral taxon 147 g Faecalibacterium s − n Alistipes putredinis s s Chryseobacterium s − sp. canine sp. SOZ3-3181 oral taxon 147 g Murdochiella g + n Odoribacter s s Blastocatella s + splanchnicus fastidiosa g Lachnoanaerobaculum g + n Porphyromonas s + s Massilia sp. s − asaccharolytica TMT4-34 g Streptococcus s + n Prevotella bivia s + s Salinibacterium s + sp. GMD6S sp. MDT1-9-1 g Varibaculum sp. s + n Prevotella buccalis s + s Blastocatella g − CCUG 45114 g Varibaculum s + n Prevotella disiens s + s Acinetobacter sp. s + sp. CCUG 45114 HD5.2 g Dermabacter s + n Alphaproteobacteria c + s Sphingomonas s − sp. HFH0086 sp. DS-3PS-11 g Stomatobaculum g + n Halomonadaceae f − s Chryseobacterium s − sp. R064 g Actinomyces sp. s − n Euryarchaeota p + s Rhizobium sp. s − S4-C9 10II g Atopobium sp. s − n Gemella s − s Bosea sp. B0.09- s − S3MV24 morbillorum 49 g Atopobium sp. s − n Rhizobium etli s + s Sphingomonas s − S3MV26 sp. URHD0057 g Atopobium sp. s + n Veillonella g − s Exiguobacterium s − S3PFAA1-4 sp. icr3 g Dialister sp. S4- s − n Veillonella parvula s − s Jatrophihabitans g + 23 g Gardnerella sp. s + n Epsilonproteobacteria c − s Chryseobacterium s − S3PF20 sp. R31 g Prevotella sp. s + n Bifidobacteriaceae f − s Flavobacterium s + S4-10 qiangtangense g Solobacterium s + n Propionibacteriaceae f − s Mycobacterium s − sp. S4-A19 sp. UNC410CL29Cvi 84 n Helcococcus g − s Pseudonocardia s + sp. ARG1 

We claim:
 1. A method for characterizing a sleep-related condition associated with microorganisms, the method comprising: determining a microorganism sequence dataset associated with a set of subjects, based on microorganism nucleic acids from biological samples associated with the set of subjects, wherein the microorganism nucleic acids are associated with the sleep-related condition; collecting, for the set of subjects, supplementary data associated with the sleep-related condition; determining at least one of a set of microbiome composition features and a set of microbiome functional features associated with the set of subjects, based on the microorganism sequence dataset; generating a sleep-related characterization model based on the supplementary data and the at least one of the set of microbiome composition features and the set of microbiome functional features, wherein the sleep-related characterization model is associated with the sleep-related condition; determining a sleep-related characterization for a user for the sleep-related condition based on the sleep-related characterization model; and providing a therapy to the user for facilitating improvement of the sleep-related condition, based on the sleep-related characterization.
 2. The method of claim 1, wherein determining the microorganism sequence dataset comprises: identifying a first primer type compatible with a first genetic target associated with the sleep-related condition; and generating the microorganism sequence dataset for the set of subjects based on the microorganism nucleic acids and first primers corresponding to the first primer type.
 3. The method of claim 2, wherein the biological samples correspond to a set of collection sites comprising at least two of a gut site, a skin site, a nose site, a mouth site, and a genitals site, and wherein determining the microorganism sequence dataset comprises: identifying the first primer type compatible with the first genetic target associated with the sleep-related condition and a first collection site of the set of collection sites; identifying a second primer type compatible with a second genetic target associated with the sleep-related condition and a second collection site of the set of collection sites; and generating the microorganism sequence dataset for the set of subjects based on the microorganism nucleic acids, the first primers corresponding to the first primer type, and second primers corresponding to the second primer type.
 4. The method of claim 3, wherein the first collection site type comprises the gut site, wherein determining the microorganism sequence dataset comprises determining at least one of a metagenomic library and a metatranscriptomic library based on a subset of the microorganism nucleic acids and the first primers, and wherein determining the at least one of the set of microbiome composition features and the set of microbiome functional features comprises determining the at least one of the set of microbiome composition features and the set of microbiome functional features based on the at least one of the metagenomic library and the metatranscriptomic library.
 5. The method of claim 2, wherein determining the microorganism sequence dataset comprises: fragmenting the microorganism nucleic acids; and generating amplified microorganism nucleic acids through at least one of a singleplex amplification process and a multiplex amplification process for the fragmented microorganism nucleic acids, based on the first primers corresponding to the first primer type compatible with the genetic target associated with the sleep-related condition; and determining, with a next-generation sequencing system, the microorganism sequence dataset based on the amplified microorganism nucleic acids.
 6. The method of claim 1, wherein determining the at least one of the set of microbiome composition features and the set of microbiome functional features comprises applying a set of analytical techniques comprising at least one of a univariate statistical test, a multivariate statistical test, a dimensionality reduction technique, and an artificial intelligence approach, based on the microorganism sequence dataset, and wherein the at least one of the set of microbiome composition features and the set of microbiome functional features is configured to improve computing system-related functionality associated with the determining of the sleep-related characterization for the user.
 7. The method of claim 6, wherein determining the at least one of the set of microbiome composition features and the set of microbiome functional features comprises determining a set of cross-condition features associated with the first sleep-related condition and a second sleep-related condition, based on the set of analytical techniques, wherein determining the sleep-related characterization comprises determining the sleep-related characterization for a user for the first and the second sleep-related conditions based on the sleep-related characterization model, and wherein the set of cross-condition features is configured to improve the computing system-related functionality associated with the determining of the sleep-related characterization for the user for the first and the second sleep-related conditions.
 8. The method of claim 1, wherein the generating the sleep-related characterization model comprises generating the sleep-related characterization model based on the supplementary data and the set of microbiome composition features, and wherein the set of microbiome composition features comprises features associated at least one of: Acetitomaculum (genus), Acidaminococcaceae (family), Acidaminococcus (genus), Acidaminococcus sp. D21 (species), Actinobacteria (class), Actinobacteria (phylum), Actinomyces (genus), Actinomyces sp. ICM47 (species), Actinomyces sp. ICM54 (species), Actinomyces sp. S9 PR-21 (species), Akkermansia muciniphila (species), Alcaligenaceae (family), Alistipes indistinctus (species), Alistipes sp. 627 (species), Anaerococcus (genus), Anaerococcus hydrogenalis (species), Anaerococcus octavius (species), Anaerococcus sp. 8404299 (species), Anaerococcus sp. 8405254 (species), Anaerococcus tetradius (species), Anaerofustis (genus), Anaerofustis stercorihominis (species), Anaeroplasma (genus), Anaerosporobacter (genus), Anaerostipes sp. 1y-2 (species), Anaerostipes sp. 3_2_56FAA (species), Anaerotruncus colihominis (species), Anaerotruncus sp. NML 070203 (species), Atopobium (genus), Atopobium vaginae (species), Bacteroides clarus (species), Bacteroides coprocola (species), Bacteroides nordii (species), Bacteroides plebeius (species), Bacteroides sp. 2_2_4 (species), Bacteroides sp. CB57 (species), Bacteroides sp. DJF_B097 (species), Bacteroides sp. EBA5-17 (species), Bacteroides sp. SLC1-38 (species), Bacteroides sp. XB12B (species), Bacteroides stercorirosoris (species), Bifidobacteriaceae (family), Bifidobacteriales (order), Bifidobacterium (genus), Bifidobacterium biavatii (species), Bifidobacterium bifidum (species), Bifidobacterium choerinum (species), Bifidobacterium longum (species), Bifidobacterium merycicum (species), Bifidobacterium sp. MSX5B (species), Bifidobacterium stercoris (species), Blautia glucerasea (species), Blautia hydrogenotrophica (species), Blautia sp. Ser8 (species), Blautia sp. YHC-4 (species), Brevibacterium massiliense (species), Butyricicoccus (genus), Butyricicoccus pullicaecorum (species), Butyricimonas synergistica (species), Butyrivibrio (genus), Butyrivibrio crossotus (species), Campylobacter (genus), Campylobacter hominis (species), Campylobacter ureolyticus (species), Campylobacteraceae (family), Campylobacterales (order), Candidatus Soleaferrea (genus), Candidatus Stoquefichus (genus), Catabacter hongkongensis (species), Catenibacterium mitsuokai (species), Cellulosilyticum (genus), Collinsella aerofaciens (species), Collinsella intestinalis (species), Coprobacillus (genus), Coprobacillus sp. D6 (species), Coprobacter (genus), Coprobacter fastidiosus (species), Corynebacterium sp. (species), Corynebacterium ulcerans (species), Cyanobacteria (phylum), Dermabacter (genus), Dermabacter hominis (species), Dermabacteraceae (family), Desulfovibrio desulfuricans (species), Desulfovibrio piger (species), Desulfovibrio sp. (species), Dialister (genus), Dialister invisus (species), Dialister propionicifaciens (species), Dielma (genus), Dielma fastidiosa (species), Eggerthella (genus), Eggerthella sp. HGA1 (species), Eisenbergiella tayi (species), Enterobacter (genus), Enterobacter sp. BS2-1 (species), Enterococcus sp. C6I11 (species), Epsilonproteobacteria (class), Erysipelatoclostridium ramosum (species), Eubacteriaceae (family), Eubacterium (genus), Eubacterium callanderi (species), Eubacterium sp. SAin (species), Facklamia sp. 1440-97 (species), Fibrobacter (genus), Flavobacterium (genus), Flavonifractor plautii (species), Fusobacteria (phylum), Fusobacteriaceae (family), Fusobacteriales (order), Fusobacteriia (class), Fusobacterium (genus), Fusobacterium equinum (species), Fusobacterium ulcerans (species), Gardnerella (genus), Gardnerella vaginalis (species), Gelria (genus), Gordonibacter (genus), Gordonibacter pamelaeae (species), Granulicatella (genus), Granulicatella adiacens (species), Haemophilus (genus), Haemophilus parainfluenzae (species), Herbaspirillum (genus), Herbaspirillum seropedicae (species), Holdemania (genus), Holdemania filiformis (species), Howardella (genus), Hydrogenoanaerobacterium (genus), Intestinibacter (genus), Klebsiella (genus), Kluyvera georgiana (species), Lachnospira (genus), Lactobacillus crispatus (species), Lactobacillus rhamnosus (species), Lactobacillus sp. 66c (species), Lactobacillus sp. Akhmrol (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-30 (species), Lactonifactor (genus), Lactonifactor longoviformis (species), Leptotrichiaceae (family), Leuconostoc (genus), Leuconostocaceae (family), Megamonas (genus), Megamonas funiformis (species), Megasphaera (genus), Megasphaera genomosp. C1 (species), Megasphaera sp. S6-MB2 (species), Megasphaera sp. UPII 199-6 (species), Mobiluncus (genus), Mobiluncus mulieris (species), Moryella (genus), Negativicoccus (genus), Negativicoccus succinicivorans (species), Negativicutes (class), Oligella (genus), Oligella urethralis (species), Olsenella sp. 1183 (species), Oscillospiraceae (family), Pantoea (genus), Papillibacter (genus), Parabacteroides goldsteinii (species), Parabacteroides sp. 157 (species), Paraprevotella clara (species), Parvimonas micra (species), Pasteurellaceae (family), Pasteurellales (order), Peptoniphilus (genus), Peptoniphilus coxii (species), Peptoniphilus sp. 2002-2300004 (species), Peptoniphilus sp. 7-2 (species), Peptoniphilus sp. gpac018A (species), Phascolarctobacterium (genus), Phascolarctobacterium succinatutens (species), Phyllobacteriaceae (family), Phyllobacterium (genus), Porphyromonas uenonis (species), Prevotella bivia (species), Prevotella disiens (species), Propionibacteriaceae (family), Propionibacterium (genus), Proteobacteria (phylum), Pseudobutyrivibrio (genus), Pseudoclavibacter sp. Timone (species), Rhizobiales (order), Roseburia (genus), Ruminococcaceae (family), Sarcina ventriculi (species), Selenomonadales order Shuttleworthia (genus), Sphingomonadaceae (family), Sphingomonadales (order), Stenotrophomonas (genus), Stenotrophomonas sp. C-S-TSA3 (species), Streptococcus agalactiae (species), Streptococcus gordonii (species), Streptococcus pasteurianus (species), Streptococcus peroris (species), Streptococcus sp. BS35a (species), Streptococcus sp. oral taxon G59 (species), Sutterella (genus), Sutterella sp. YIT 12072 (species), Sutterella stercoricanis (species), Sutterella wadsworthensis (species), Terrisporobacter glycolicus (species), Thermoanaerobacteraceae (family), Thermoanaerobacterales (order), Turicibacter (genus), Turicibacter sanguinis (species), Varibaculum (genus), Varibaculum cambriense (species), Veillonella sp. AS16 (species), Veillonellaceae (family), Weissella hellenica (species), Xanthomonadaceae (family), Xanthomonadales (order), Alistipes massiliensis (species), Butyricimonas virosa (species), Alistipes putredinis (species), Actinobacillus porcinus (species), Actinobacillus (genus), Butyricimonas (genus), Howardella ureilytica (species), Firmicutes (phylum), Clostridium (genus), Lentisphaeria (class), Anaeroplasmataceae (family), Pseudomonadaceae (family), Victivallaceae (family), Blautia (genus), Asteroleplasma (genus), Delftia (genus), Victivallis (genus), Peptostreptococcus (genus), Pseudomonas (genus), Alloprevotella (genus), Catenibacterium (genus), Anaeroplasmatales (order), Pseudomonadales (order), Lentisphaerae (phylum), Veillonella sp. CM60 (species), Porphyromonas sp. 2026 (species), Delftia sp. BN-SKY3 (species), Peptostreptococcus anaerobius (species), Citrobacter sp. BW4 (species), Alistipes sp. RMA 9912 (species), Bacteroides vulgatus (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-26 (species), Bifidobacterium kashiwanohense (species), and Butyricimonas sp. JCM 18677 (species).
 9. The method of claim 1, wherein the therapy comprises a consumable comprising at least one of a probiotic therapy and a prebiotic therapy, and wherein the at least one of the probiotic therapy and the prebiotic therapy is associated with at least one of Anaerococcus sp. 8405254, Bacteroides nordii, Bacteroides sp. SLC1-38, Bifidobacterium merycicum, Blautia glucerasea, Blautia sp. YHC-4, Butyrivibrio crossotus, Catabacter hongkongensis, Catenibacterium mitsuokai, Collinsella aerofaciens, Collinsella intestinalis, Desulfovibrio piger, Eubacterium sp. SA11, Fusobacterium ulcerans, Lactobacillus sp. TAB-30, Megamonas funiformis, Megasphaera sp. S6-MB2, Olsenella sp. 1183, Phascolarctobacterium succinatutens, Streptococcus gordonii, Sutterella sp. YIT 12072, Sutterella wadsworthensis, Veillonella sp. AS16, Fusobacterium equinum, Facklamia sp. 1440-97, Anaerostipes sp. 3_2_56FAA, Pseudoclavibacter sp. Timone, Parvimonas micra, Lactobacillus sp. 66c, Bacteroides coprocola, Corynebacterium ulcerans, Anaerostipes sp. 1y-2, Sarcina ventriculi, Lactonifactor longoviformis, Enterococcus sp. C6I11, Eubacterium callanderi, Dialister invisus, Blautia sp. Ser8, Bacteroides plebeius, Bacteroides sp. 2_2_4, Anaerotruncus colihominis, Varibaculum cambriense, Actinomyces sp. S9 PR-21, Desulfovibrio sp., Prevotella disiens, Mobiluncus mulieris, Lactobacillus rhamnosus, Bifidobacterium sp. MSX5B, Acidaminococcus sp. D21, Bifidobacterium bifidum, Bacteroides sp. EBA5-17, Anaerococcus hydrogenalis, Alistipes sp. 627, Negativicoccus succinicivorans, Anaerococcus sp. 8404299, Butyricimonas synergistica, Actinomyces sp. ICM54, Turicibacter sanguinis, Blautia hydrogenotrophica, Parabacteroides goldsteinii, Bifidobacterium biavatii, Erysipelatoclostridium ramosum, Anaerofustis stercorihominis, Gardnerella vaginalis, Gordonibacter pamelaeae, Campylobacter hominis, Lactobacillus sp. BL302, Megasphaera sp. UPII 199-6, Peptoniphilus sp. gpac018A, Bifidobacterium stercoris, Butyricicoccus pullicaecorum, Megasphaera sp. S6-MB2, Corynebacterium sp., Dialister propionicifaciens, Anaerococcus tetradius, Eggerthella sp. HGA1, Peptoniphilus sp. 7-2, Terrisporobacter glycolicus, Peptoniphilus sp. 2002-2300004, Bacteroides sp. CB57, Streptococcus pasteurianus, Megasphaera genomosp. C1, Holdemania filiformis, Coprobacillus sp. D6, Dielma fastidiosa, Sutterella stercoricanis, Brevibacterium massiliense, Bacteroides stercorirosoris, Lactobacillus sp. Akhmrol, Actinomyces sp. ICM47, Lactobacillus crispatus, Prevotella bivia, Enterobacter sp. BS2-1, Streptococcus sp. BS35a, Anaerotruncus sp. NML 070203, Haemophilus parainfluenzae, Peptoniphilus coxii, Granulicatella adiacens, Campylobacter ureolyticus, Bifidobacterium longum, Bacteroides clarus, Bacteroides sp. XB12B, Streptococcus agalactiae, Kluyvera georgiana, Flavonifractor plautii, Paraprevotella clara, Stenotrophomonas sp. C-S-TSA3, Bacteroides sp. DJF_B097, Herbaspirillum seropedicae, Streptococcus sp. oral taxon G59, Eisenbergiella tayi, Coprobacter fastidiosus, Oligella urethralis, Akkermansia muciniphila, Desulfovibrio desulfuricans, Streptococcus peroris, Anaerococcus octavius, Atopobium vaginae, Parabacteroides sp. 157, Bifidobacterium choerinum, Porphyromonas uenonis, Dermabacter hominis, Alistipes indistinctus, Weissella hellenica, Alistipes massiliensis, Butyricimonas virosa, Alistipes putredinis, Actinobacillus porcinus, Howardella ureilytica, Veillonella sp. CM60, Porphyromonas sp. 2026, Delftia sp. BN-SKY3, Peptostreptococcus anaerobius, Citrobacter sp. BW4, Alistipes sp. RMA 9912, Bacteroides vulgatus, Lactobacillus sp. TAB-26, Bifidobacterium sp., Bifidobacterium kashiwanohense, and Butyricimonas sp. JCM
 18677. 10. The method of claim 1, wherein the supplementary data comprises at least one of survey-derived data, user data, site-specific data, and device data, wherein the method further comprises determining a set of supplementary features based on the at least one of the survey-derived data, the user data, the site-specific data, and the device data, and wherein generating the sleep-related characterization model comprises generating the sleep-related characterization model based on the supplementary features and the at least one of the set of microbiome composition features and the set of microbiome functional features.
 11. The method of claim 1, further comprising determining a set of user microbiome features for the user based on a sample from the user, wherein the set of user microbiome features is associated with the at least one of the set of microbiome composition features and the set of microbiome functional features, wherein the sleep-related characterization model comprises a therapy model, wherein determining the sleep-related characterization comprises determining a therapy for the user for the sleep-related condition based on the therapy model and the set of user microbiome features, and wherein providing the therapy comprises providing a recommendation for the therapy to the user at a computing device associated with the user.
 12. A method for characterizing a first sleep-related condition associated with microorganisms, the method comprising: collecting a biological sample from a user, wherein the biological sample comprises microorganism nucleic acids associated with the first sleep-related condition; determining a microorganism dataset associated with the user based on the microorganism nucleic acids of the biological sample; determining user microbiome features comprising at least one of user microbiome composition features and user microbiome functional features, based on the microorganism dataset, wherein the user microbiome features are associated with the first sleep-related condition; determining a sleep-related characterization for a user for the first sleep-related condition based on the user microbiome features; and facilitating therapeutic intervention in relation to a therapy for the user for facilitating improvement of the first sleep-related condition, based on the sleep-related characterization.
 13. The method of claim 12, further comprising collecting first sleep-tracking data comprising at least one of first survey-derived data and first device data, wherein the first sleep-tracking data is associated with sleep quality of the user, wherein determining the sleep-related characterization comprises determining the sleep-related characterization for the user based on the user microbiome features and the first sleep-tracking data, and wherein the method further comprises, after facilitating therapeutic intervention: collecting a post-therapy biological sample from the user; collecting second sleep-tracking data comprising at least one of second survey-derived data and second device data, wherein the second sleep-tracking data is associated with the sleep quality of the user; and determining a post-therapy sleep-related characterization for the user for the first sleep-related condition based on the second sleep-tracking data and post-therapy microbiome features associated with the post-therapy biological sample.
 14. The method of claim 13, further comprising facilitating therapeutic intervention in relation to an updated therapy for the user for improving the first sleep-related condition, based on the post-therapy sleep-related characterization, and wherein the updated therapy comprises at least one of a consumable, a device-related therapy, a surgical operation, a psychological-associated therapy, a behavior modification therapy, and an environmental factor modification therapy.
 15. The method of claim 14, wherein determining the post-therapy sleep-related characterization comprises determining a comparison between microbiome characteristics of the user and reference microbiome characteristics corresponding to a user subgroup sharing at least one of a behavior and an environmental factor associated with the first sleep-related condition, based on the post-therapy microbiome features, and wherein facilitating therapeutic intervention in relation to the updated therapy comprises presenting the comparison to the user for facilitating at least one of the behavior modification therapy and the environmental factor modification therapy.
 16. The method of claim 12, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a first set of composition features associated with at least one of: Acetitomaculum (genus), Acidaminococcaceae (family), Acidaminococcus (genus), Acidaminococcus sp. D21 (species), Actinobacteria (class), Actinobacteria (phylum), Actinomyces (genus), Actinomyces sp. ICM47 (species), Actinomyces sp. ICM54 (species), Actinomyces sp. S9 PR-21 (species), Akkermansia muciniphila (species), Alcaligenaceae (family), Alistipes indistinctus (species), Alistipes sp. 627 (species), Anaerococcus (genus), Anaerococcus hydrogenalis (species), Anaerococcus octavius (species), Anaerococcus sp. 8404299 (species), Anaerococcus sp. 8405254 (species), Anaerococcus tetradius (species), Anaerofustis (genus), Anaerofustis stercorihominis (species), Anaeroplasma (genus), Anaerosporobacter (genus), Anaerostipes sp. 1y-2 (species), Anaerostipes sp. 3_2_56FAA (species), Anaerotruncus colihominis (species), Anaerotruncus sp. NML 070203 (species), Atopobium (genus), Atopobium vaginae (species), Bacteroides clarus (species), Bacteroides coprocola (species), Bacteroides nordii (species), Bacteroides plebeius (species), Bacteroides sp. 2_2_4 (species), Bacteroides sp. CB57 (species), Bacteroides sp. DJF_B097 (species), Bacteroides sp. EBA5-17 (species), Bacteroides sp. SLC1-38 (species), Bacteroides sp. XB12B (species), Bacteroides stercorirosoris (species), Bifidobacteriaceae (family), Bifidobacteriales (order), Bifidobacterium (genus), Bifidobacterium biavatii (species), Bifidobacterium bifidum (species), Bifidobacterium choerinum (species), Bifidobacterium longum (species), Bifidobacterium merycicum (species), Bifidobacterium sp. MSX5B (species), Bifidobacterium stercoris (species), Blautia glucerasea (species), Blautia hydrogenotrophica (species), Blautia sp. Ser8 (species), Blautia sp. YHC-4 (species), Brevibacterium massiliense (species), Butyricicoccus (genus), Butyricicoccus pullicaecorum (species), Butyricimonas synergistica (species), Butyrivibrio (genus), Butyrivibrio crossotus (species), Campylobacter (genus), Campylobacter hominis (species), Campylobacter ureolyticus (species), Campylobacteraceae (family), Campylobacterales (order), Candidatus Soleaferrea (genus), Candidatus Stoquefichus (genus), Catabacter hongkongensis (species), Catenibacterium mitsuokai (species), Cellulosilyticum (genus), Collinsella aerofaciens (species), Collinsella intestinalis (species), Coprobacillus (genus), Coprobacillus sp. D6 (species), Coprobacter (genus), Coprobacter fastidiosus (species), Corynebacterium sp. (species), Corynebacterium ulcerans (species), Cyanobacteria (phylum), Dermabacter (genus), Dermabacter hominis (species), Dermabacteraceae (family), Desulfovibrio desulfuricans (species), Desulfovibrio piger (species), Desulfovibrio sp. (species), Dialister (genus), Dialister invisus (species), Dialister propionicifaciens (species), Dielma (genus), Dielma fastidiosa (species), Eggerthella (genus), Eggerthella sp. HGA1 (species), Eisenbergiella tayi (species), Enterobacter (genus), Enterobacter sp. BS2-1 (species), Enterococcus sp. C6I11 (species), Epsilonproteobacteria (class), Erysipelatoclostridium ramosum (species), Eubacteriaceae (family), Eubacterium (genus), Eubacterium callanderi (species), Eubacterium sp. SA11 (species), Facklamia sp. 1440-97 (species), Fibrobacter (genus), Flavobacterium (genus), Flavonifractor plautii (species), Fusobacteria (phylum), Fusobacteriaceae (family), Fusobacteriales (order), Fusobacteriia (class), Fusobacterium (genus), Fusobacterium equinum (species), Fusobacterium ulcerans (species), Gardnerella (genus), Gardnerella vaginalis (species), Gelria (genus), Gordonibacter (genus), Gordonibacter pamelaeae (species), Granulicatella (genus), Granulicatella adiacens (species), Haemophilus (genus), Haemophilus parainfluenzae (species), Herbaspirillum (genus), Herbaspirillum seropedicae (species), Holdemania (genus), Holdemania filiformis (species), Howardella (genus), Hydrogenoanaerobacterium (genus), Intestinibacter (genus), Klebsiella (genus), Kluyvera georgiana (species), Lachnospira (genus), Lactobacillus crispatus (species), Lactobacillus rhamnosus (species), Lactobacillus sp. 66c (species), Lactobacillus sp. Akhmrol (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-30 (species), Lactonifactor (genus), Lactonifactor longoviformis (species), Leptotrichiaceae (family), Leuconostoc (genus), Leuconostocaceae (family), Megamonas (genus), Megamonas funiformis (species), Megasphaera (genus), Megasphaera genomosp. C1 (species), Megasphaera sp. S6-MB2 (species), Megasphaera sp. UPII 199-6 (species), Mobiluncus (genus), Mobiluncus mulieris (species), Moryella (genus), Negativicoccus (genus), Negativicoccus succinicivorans (species), Negativicutes (class), Oligella (genus), Oligella urethralis (species), Olsenella sp. 1183 (species), Oscillospiraceae (family), Pantoea (genus), Papillibacter (genus), Parabacteroides goldsteinii (species), Parabacteroides sp. 157 (species), Paraprevotella clara (species), Parvimonas micra (species), Pasteurellaceae (family), Pasteurellales (order), Peptoniphilus (genus), Peptoniphilus coxii (species), Peptoniphilus sp. 2002-2300004 (species), Peptoniphilus sp. 7-2 (species), Peptoniphilus sp. gpac018A (species), Phascolarctobacterium (genus), Phascolarctobacterium succinatutens (species), Phyllobacteriaceae (family), Phyllobacterium (genus), Porphyromonas uenonis (species), Prevotella bivia (species), Prevotella disiens (species), Propionibacteriaceae (family), Propionibacterium (genus), Proteobacteria (phylum), Pseudobutyrivibrio (genus), Pseudoclavibacter sp. Timone (species), Rhizobiales (order), Roseburia (genus), Ruminococcaceae (family), Sarcina ventriculi (species), Selenomonadales order Shuttleworthia (genus), Sphingomonadaceae (family), Sphingomonadales (order), Stenotrophomonas (genus), Stenotrophomonas sp. C-S-TSA3 (species), Streptococcus agalactiae (species), Streptococcus gordonii (species), Streptococcus pasteurianus (species), Streptococcus peroris (species), Streptococcus sp. BS35a (species), Streptococcus sp. oral taxon G59 (species), Sutterella (genus), Sutterella sp. YIT 12072 (species), Sutterella stercoricanis (species), Sutterella wadsworthensis (species), Terrisporobacter glycolicus (species), Thermoanaerobacteraceae (family), Thermoanaerobacterales (order), Turicibacter (genus), Turicibacter sanguinis (species), Varibaculum (genus), Varibaculum cambriense (species), Veillonella sp. AS16 (species), Veillonellaceae (family), Weissella hellenica (species), Xanthomonadaceae (family), and Xanthomonadales (order).
 17. The method of claim 16, wherein determining the user microbiome features comprises determining the user microbiome composition features comprising a second set of composition features associated with at least one of: Alistipes massiliensis (species), Butyricimonas virosa (species), Alistipes putredinis (species), Actinobacillus porcinus (species), Actinobacillus (genus), Butyricimonas (genus), Howardella ureilytica (species), Firmicutes (phylum), Clostridium (genus), Lentisphaeria (class), Anaeroplasmataceae (family), Pseudomonadaceae (family), Victivallaceae (family), Blautia (genus), Asteroleplasma (genus), Delftia (genus), Victivallis (genus), Peptostreptococcus (genus), Pseudomonas (genus), Alloprevotella (genus), Catenibacterium (genus), Anaeroplasmatales (order), Pseudomonadales (order), Lentisphaerae (phylum), Veillonella sp. CM60 (species), Porphyromonas sp. 2026 (species), Delftia sp. BN-SKY3 (species), Peptostreptococcus anaerobius (species), Citrobacter sp. BW4 (species), Alistipes sp. RMA 9912 (species), Bacteroides vulgatus (species), Lactobacillus sp. BL302 (species), Lactobacillus sp. TAB-26 (species), Bifidobacterium kashiwanohense (species), Butyricimonas sp. JCM 18677 (species).
 18. The method of claim 17, wherein determining the sleep-related characterization comprises determining the sleep-related characterization for the user for the first sleep-related condition and a second sleep-related condition based on the first set of composition features, a first sleep-related characterization model, the second set of composition features, and a second sleep-related characterization model, wherein the first sleep-related characterization model is associated with the first sleep-related condition, and wherein the second sleep-related characterization model is associated with the second sleep-related condition.
 19. The method of claim 18, wherein determining the user microbiome features comprises: determining first user microbiome functional features associated with first functions from at least one of Cluster of Orthologous Groups (COG) database and Kyoto Encyclopedia of Genes and Genomes (KEGG) database, wherein the first user microbiome functional features are associated with the first sleep-related condition; and determining second user microbiome functional features associated with second functions from at least one of the COG database and the KEGG database, wherein the second user microbiome functional features are associated with the second sleep-related condition, wherein determining the sleep-related characterization comprises determining the sleep-related characterization for the user for the first sleep-related condition and the second sleep-related condition based on the first set of composition features, the first user microbiome functional features, the first sleep-related characterization model, the second set of composition features, the second user microbiome functional features, and the second sleep-related characterization model.
 20. The method of claim 12, wherein determining the user microbiome features comprises applying a set of analytical techniques to determine at least one of presence of at least one of a microbiome composition diversity feature and a microbiome functional diversity feature, absence of the at least one of the microbiome composition diversity feature and the microbiome functional diversity feature, a relative abundance feature describing relative abundance of different taxonomic groups associated with the first sleep-related condition, a ratio feature describing a ratio between at least two microbiome features associated with the different taxonomic groups, an interaction feature describing an interaction between the different taxonomic groups, and a phylogenetic distance feature describing phylogenetic distance between the different taxonomic groups, based on the microorganism dataset, and wherein the set of analytical techniques comprises at least one of a univariate statistical test, a multivariate statistical test, a dimensionality reduction technique, and an artificial intelligence approach.
 21. The method of claim 12, wherein the first sleep-related condition comprises a bad sleep quality condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a genital site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Acidaminococcus intestini, Acidaminococcus sp. D21, Acinetobacter sp. C-S-NA3, Acinetobacter sp. RBE2CD-114, Acinetobacter sp. RE 51, Actinobaculum massiliense, Actinomyces europaeus, Actinomyces hongkongensis, Actinomyces neuii, Actinomyces odontolyticus, Actinomyces radingae, Actinomyces sp. 2002-2301122, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S4-C9, Actinomyces sp. S9 PR-21, Actinomyces turicensis, Actinotignum schaalii, Actinotignum urinale, Adlercreutzia equolifaciens, Aerococcus christensenii, Aerococcus urinae, Akkermansia muciniphila, Alistipes finegoldii, Alistipes putredinis, Alistipes shahii, Alistipes sp. EBA6-25c12, Alistipes sp. HGB5, Alistipes sp. NML05A004, Alistipes sp. RMA 9912, Alloscardovia omnicolens, Anaerobacillus alkalidiazotrophicus, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus prevotii, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S9 PR-16, Anaerococcus sp. S9 PR-5, Anaerococcus tetradius, Anaerococcus vaginalis, Anaeroglobus geminatus, Anaerostipes hadrus, Anaerostipes sp. 3_2_56FAA, Anoxybacillus sp. HT14, Aquabacterium sp. Aqua2, Arcanobacterium haemolyticum, Asaccharospora irregularis, Atopobium deltae, Atopobium minutum, Atopobium sp. MVA9, Atopobium sp. S3MV24, Atopobium sp. S3MV26, Atopobium sp. S3PFAA1-4, Atopobium sp. S4-5, Atopobium sp. S4-A11a, Bacillus pseudofirmus, Bacillus sp. CZb, Bacillus sp. T41, Bacteroides acidifaciens, Bacteroides clarus, Bacteroides coprocola, Bacteroides dorei, Bacteroides eggerthii, Bacteroides finegoldii, Bacteroides fragilis, Bacteroides intestinalis, Bacteroides massiliensis, Bacteroides plebeius, Bacteroides salyersiae, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. EBA5-17, Bacteroides sp. SLC1-38, Bacteroides sp. XB12B, Bacteroides sp. XB44A, Bacteroides stercorirosoris, Bacteroides stercoris, Bacteroides thetaiotaomicron, Bacteroides uniformis, Bacteroides vulgatus, Barnesiella intestinihominis, Bergeyella sp. AF14, Bifidobacterium bifidum, Bifidobacterium breve, Bifidobacterium dentium, Bifidobacterium kashiwanohense, Bifidobacterium sp. 120, Bifidobacterium sp. MSX5B, Blautia faecis, Blautia sp. Ser8, Bosea sp. BIWAKO-01, Bosea sp. R-46060, Brachybacterium sp. NIO-27, Bradyrhizobium sp. 68A4SAPT, Bradyrhizobium sp. CCBAU 53380, Brevibacterium massiliense, Brevibacterium paucivorans, Brevibacterium ravenspurgense, Brevundimonas sp. V3M6, Bulleidia extructa, Campylobacter concisus, Campylobacter gracilis, Campylobacter hominis, Campylobacter rectus, Campylobacter sp. 10_1_50, Campylobacter sp. FOBRC15, Campylobacter ureolyticus, Chryseobacterium sp. MH28, Citrobacter sp. BW4, Cloacibacillus evryensis, Cloacibacterium normanense, Collinsella aerofaciens, Coprobacter fastidiosus, Corynebacterium argentoratense, Corynebacterium canis, Corynebacterium diphtheriae, Corynebacterium epidermidicanis, Corynebacterium frankenforstense, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium sp., Corynebacterium sp. 2300500, Corynebacterium sp. 713182/2012, Corynebacterium sp. NML 97-0186, Corynebacterium sp. NML96-0085, Corynebacterium sp. jw37, Corynebacterium spheniscorum, Corynebacterium ulcerans, Cronobacter sakazakii, Curvibacter gracilis, Cutibacterium acnes, Cutibacterium avidum, Delftia lacustris, Delftia sp. BN-SKY3, Dermabacter hominis, Dialister micraerophilus, Dialister propionicifaciens, Dialister sp. E2_2, Dialister sp. S4-23, Dialister sp. S7MSR5, Dialister succinatiphilus, Dorea longicatena, Eggerthella sp. HGA1, Eggerthia catenaformis, Enterococcus faecalis, Enterococcus sp. C6I11, Enterococcus sp. SI-4, Facklamia languida, Facklamia sp. 1440-97, Facklamia sp. 164-92, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Fastidiosipila sanguinis, Finegoldia sp. S3MVA9, Finegoldia sp. S5-A7, Finegoldia sp. S8 F7, Finegoldia sp. S9 AA1-5, Flavonifractor plautii, Fusobacterium nucleatum, Fusobacterium periodonticum, Fusobacterium sp. ACB2, Fusobacterium sp. AS2, Fusobacterium sp. CM21, Gardnerella sp. S3PF20, Gardnerella vaginalis, Gemella asaccharolytica, Gemella morbillorum, Gemella sp. 933-88, Globicatella sanguinis, Globicatella sulfidifaciens, Granulicatella adiacens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Halomonas pacifica, Helcococcus seattlensis, Helcococcus sueciensis, Herbaspirillum huttiense, Herbaspirillum seropedicae, Intestinimonas butyriciproducens, Jonquetella anthropi, Jonquetella sp. BV3C4, Kluyvera georgiana, Kocuria rhizophila, Lachnospira pectinoschiza, Lactobacillus acidophilus, Lactobacillus coleohominis, Lactobacillus crispatus, Lactobacillus fermentum, Lactobacillus fornicalis, Lactobacillus gasseri, Lactobacillus iners, Lactobacillus jensenii, Lactobacillus johnsonii, Lactobacillus plantarum, Lactobacillus reuteri, Lactobacillus rhamnosus, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. BL302, Lactobacillus sp. C30An8, Lactobacillus sp. CR-609S, Lactobacillus sp. MYMRS/TEN2, Lactobacillus sp. TAB-22, Lactobacillus taiwanensis, Lactobacillus vaginalis, Lactococcus lactis, Lysinibacillus sphaericus, Megamonas funiformis, Megasphaera massiliensis, Megasphaera micronuciformis, Megasphaera sp. BV3C16-1, Megasphaera sp. UPII 135-E, Megasphaera sp. UPII 199-6, Mesorhizobium sp. mat916, Methanobrevibacter smithii, Methylobacterium sp. CBMB45, Methylobacterium sp. RK-2008-1, Microbacterium yannicii, Micrococcus luteus, Mobiluncus curtisii, Mobiluncus mulieris, Moraxella sp. 26, Moryella indoligenes, Murdochiella asaccharolytica, Mycobacterium sp. T126, Mycoplasma hominis, Negativicoccus sp. S5-A15, Negativicoccus succinicivorans, Neisseria elongata, Novosphingobium sediminicola, Ochrobactrum sp. SCTS14, Odoribacter splanchnicus, Oligella urethralis, Olsenella sp. S9 HS-6, Pantoea vagans, Parabacteroides distasonis, Parabacteroides goldsteinii, Parabacteroides merdae, Paraprevotella clara, Peptococcus niger, Peptococcus sp. S9 B-15, Peptococcus sp. S9 Pr-12, Peptoniphilus coxii, Peptoniphilus duerdenii, Peptoniphilus koenoeneniae, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. BV3AC2, Peptoniphilus sp. DNF00840, Peptoniphilus sp. JCM 8143, Peptoniphilus sp. S4-13, Peptoniphilus sp. S4-A10, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. gpac018B, Peptoniphilus sp. gpac148, Peptoniphilus sp. oral taxon 375, Peptostreptococcus anaerobius, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas somerae, Porphyromonas sp. 2024b, Porphyromonas sp. 2026, Porphyromonas sp. S8 86-12, Porphyromonas uenonis, Prevotella amnii, Prevotella bivia, Prevotella buccalis, Prevotella disiens, Prevotella sp. BV3C7, Prevotella sp. S4-10, Prevotella timonensis, Propionibacterium sp. KPL2005, Propionibacterium sp. MSP09A, Propionibacterium sp. V07/12348, Propionimicrobium lymphophilum, Proteus mirabilis, Pseudoclavibacter sp. Timone, Pseudoglutamicibacter albus, Pseudoglutamicibacter cumminsii, Pseudomonas brenneri, Pseudomonas sp. GmFRBo23, Ralstonia pickettii, Ralstonia sp. A52, Rhizobium etli, Rhizobium sp. sc-w, Rhodococcus erythropolis, Rhodopseudomonas boonkerdii, Roseburia faecis, Roseburia hominis, Roseburia intestinalis, Roseburia sp. 11SE39, Rothia mucilaginosa, Serratia nematodiphila, Slackia exigua, Slackia sp. S8 F4, Sneathia sanguinegens, Solobacterium moorei, Solobacterium sp. S4-A19, Sphingobium sp. LC341, Sphingomonas sp. 24T, Sphingomonas sp. 540, Staphylococcus aureus, Staphylococcus epidermidis, Staphylococcus simulans, Staphylococcus sp. 334802, Staphylococcus sp. C912, Staphylococcus sp. WB18-16, Stenotrophomonas sp. C-S-TSA3, Stenotrophomonas sp. KITS-1, Stomatobaculum longum, Streptococcus agalactiae, Streptococcus anginosus, Streptococcus dysgalactiae, Streptococcus gordonii, Streptococcus parasanguinis, Streptococcus pasteurianus, Streptococcus sp. 11lTha1, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. GMD6S, Streptococcus sp. XQ-1, Subdoligranulum variabile, Sutterella stercoricanis, Sutterella wadsworthensis, Tessaracoccus sp. SLo14B-79A, Trueperella bernardiae, Ureaplasma urealyticum, Varibaculum cambriense, Varibaculum sp. CCUG 45114, Varibaculum sp. CCUG 61255, Veillonella atypica, Veillonella montpellierensis, Veillonella parvula, Veillonella ratti, Veillonella rogosae, Veillonella seminalis, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. AS16, Veillonella sp. CM60, Veillonella sp. MSA12, Veillonella sp. oral taxon 780, Weeksella virosa, Abiotrophia, Achromobacter, Acidaminococcus, Acinetobacter, Actinobaculum, Actinot ignum, Adlercreutzia, Aerococcus, Akkermansia, Alistipes, Alloprevotella, Allos cardovia, Anaerobacillus, Anaerococcus, Anaeroglobus, Anaerosporobacter, Anaerotruncus, Aqu abacterium, Arcanobacterium, Arthrobacter, Asaccharospora, Atopobium, Bacillus, Bac teroides, Barnesiella, Bergeyella, Bifidobacterium, Blautia, Bosea, Brachybacterium, Bre vibacterium, Brevundimonas, Bulleidia, Butyricimonas, Campylobacter, Catenibacteriu m, Chryseobacterium, Citrobacter, Cloacibacillus, Cloacibacterium, Clostridium, Collins ella, Coprobacter, Corynebacterium, Cronobacter, Curvibacter, Cutibacterium, Deinoco ccus, Delftia, Dermabacter, Dialister, Eggerthia, Enterobacter, Enterococcus, Enterorha bdus, Erysipelatoclostridium, Facklamia, Faecalibacterium, Fastidiosipila, Flavobacterium, Flavonifractor, Fusobacterium, Gardnerella, Gemella, Globicatella, Granulicatella, Halomonas, Helcococcus, Herbaspirillum, Howardella, Intestinibacter, Intestinimonas, Johnsonella, Jonquetella, Kluyvera, Lachnoanaerobaculum, Lachnospira, Lactobacillu s, Leptotrichia, Lysinibacillus, Marvinbryantia, Megamonas, Megasphaera, Meiothermus, Mesorhizobium, Methanobrevibacter, Methylobacterium, Microbacterium, Micrococcus, Mobiluncus, Mogibacterium, Moraxella, Moryella, Murdochiella, Mycobacterium, Mycoplasma, Negativicoccus, Neisseria, Novosphingobium, Ochrobactrum, Odoribacter, Oligella, Olsenella, Oribacterium, Oscillibacter, Oscillospira, Pantoea, Parabacteroides, Paraprevotella, Parasutterella, Parvibacter, Parvimonas, Pelomonas, Peptoclostridium, Peptococcus, Peptoniphilus, Peptostreptococcus, Phyllobacterium, Porphyromonas, Prevotella, Propionibacterium, Propionimicrobium, Proteus, Pseudobutyrivibrio, Pseudo clavibacter, Pseudomonas, Pyramidobacter, Rhizobium, Rhodococcus, Rhodopseudom onas, Romboutsia, Roseburia, Rothia, Sarcina, Senegalimassilia, Serratia, Shuttleworthia, Slackia, Sneathia, Solobacterium, Sphingobium, Sphingomonas, Staphylococcus, Sto matobaculum, Streptococcus, Sutterella, Terrisporobacter, Tessaracoccus, Thalassospira, Trueperella, Ureaplasma, Varibaculum, Veillonella, Weeksella.
 22. The method of claim 12, wherein the first sleep-related condition comprises a bad sleep quality condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a gut site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Acidaminococcus fermentans, Acidaminococcus sp. BV3L6, Acidaminococcus sp. D21, Actinobaculum massiliense, Actinomyces dentalis, Actinomyces graevenitzii, Actinomyces odontolyticus, Actinomyces radingae, Actinomyces sp. 2002-2301122, Actinomyces sp. ICM47, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S4-C9, Actinomyces sp. S6-Spd3, Actinomyces sp. S9 PR-21, Actinomyces sp. oral taxon 175, Actinomyces sp. ph3, Actinomyces turicensis, Actinomyces viscosus, Actinotignum schaalii, Adlercreutzia equolifaciens, Aerococcus christensenii, Aerococcus sp. B43(2010), Aerococcus urinae, Aeromonas salmonicida, Aeromonas sp. B11, Aerosphaera taetra, Aggregatibacter aphrophilus, Aggregatibacter segnis, Akkermansia muciniphila, Alistipes indistinctus, Alistipes inops, Alistipes massiliensis, Alistipes onderdonkii, Alistipes putredinis, Alistipes shahii, Alistipes sp. EBA6-25c12, Alistipes sp. HGB5, Alistipes sp. NML05A004, Alistipes sp. RMA 9912, Allobaculum stercoricanis, Alloprevotella tannerae, Alloscardovia omnicolens, Anaerobacillus alkalidiazotrophicus, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus prevotii, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S8 F2, Anaerococcus sp. S9 PR-16, Anaerococcus sp. S9 PR-5, Anaerococcus sp. gpac137, Anaerococcus tetradius, Anaerofustis stercorihominis, Anaeroglobus geminatus, Anaeroglobus sp. S4-A15, Anaerosinus glycerini, Anaerosporobacter mobilis, Anaerostipes butyraticus, Anaerostipes caccae, Anaerostipes hadrus, Anaerostipes rhamnosivorans, Anaerostipes sp. 3_2_56FAA, Anaerostipes sp. 5_1_63FAA, Anaerostipes sp. 992a, Anaerostipes sp. AIP 183.04, Anaerotruncus colihominis, Anaerotruncus sp. NML o70203, Anaerovibrio sp. 656, Anaerovibrio sp. 765, Arcanobacterium haemolyticum, Arthrobacter sp., Asaccharospora irregularis, Atopobium deltae, Atopobium minutum, Atopobium rimae, Atopobium sp. DMCT15023, Atopobium sp. F020g9, Atopobium sp. MVA9, Atopobium sp. S3MV24, Atopobium sp. S3MV26, Atopobium vaginae, Bacillus cereus, Bacillus sp. HC15, Bacillus sp. N-16, Bacillus sp. PrMC7, Bacillus subtilis, Bacteroides acidifaciens, Bacteroides barnesiae, Bacteroides caccae, Bacteroides caecigallinarum, Bacteroides chinchillae, Bacteroides clarus, Bacteroides coprocola, Bacteroides eggerthii, Bacteroides faecis, Bacteroides finegoldii, Bacteroides fluxus, Bacteroides fragilis, Bacteroides massiliensis, Bacteroides nordii, Bacteroides oleiciplenus, Bacteroides ovatus, Bacteroides plebeius, Bacteroides rodentium, Bacteroides salanitronis, Bacteroides salyersiae, Bacteroides sartorii, Bacteroides sp., Bacteroides sp. 14(A), Bacteroides sp. 2011_Ileo_VSA_D7, Bacteroides sp. 2_2_4, Bacteroides sp. 35AE37, Bacteroides sp. 3_1_23, Bacteroides sp. 4072, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. C13EG172, Bacteroides sp. CB57, Bacteroides sp. D-2, Bacteroides sp. D20, Bacteroides sp. D22, Bacteroides sp. DJF_B097, Bacteroides sp. EBA5-17, Bacteroides sp. HPS0048, Bacteroides sp. J1511, Bacteroides sp. S-17, Bacteroides sp. SLC1-38, Bacteroides sp. Smarlab 3301643, Bacteroides sp. TP-5, Bacteroides sp. WH302, Bacteroides sp. XB12B, Bacteroides sp. XB44A, Bacteroides sp. dnLKV9, Bacteroides stercorirosoris, Bacteroides stercoris, Bacteroides thetaiotaomicron, Bacteroides uniformis, Bacteroides vulgatus, Barnesiella intestinihominis, Barnesiella viscericola, Bifidobacterium adolescentis, Bifidobacterium animalis, Bifidobacterium biavatii, Bifidobacterium bifidum, Bifidobacterium breve, Bifidobacterium catenulatum, Bifidobacterium choerinum, Bifidobacterium dentium, Bifidobacterium gallicum, Bifidobacterium kashiwanohense, Bifidobacterium longum, Bifidobacterium merycicum, Bifidobacterium pseudocatenulatum, Bifidobacterium pullorum, Bifidobacterium scardovii, Bifidobacterium sp., Bifidobacterium sp. 138, Bifidobacterium sp. 65947, Bifidobacterium sp. MSX5B, Bifidobacterium stercoris, Bifidobacterium tsurumiense, Bilophila sp. 4_1_30, Bilophila wadsworthia, Blautia coccoides, Blautia faecis, Blautia glucerasea, Blautia hansenii, Blautia hydrogenotrophica, Blautia luti, Blautia producta, Blautia schinkii, Blautia sp. Ser5, Blautia sp. Ser8, Blautia sp. YHC-4, Blautia stercoris, Blautia wexlerae, Brachyspira aalborgi, Brachyspira pilosicoli, Brachyspira sp. HIS5, Bradyrhizobium sp. 68A4SAPT, Brevibacterium massiliense, Brevibacterium paucivorans, Brevibacterium ravenspurgense, Butyricicoccus pullicaecorum, Butyricimonas sp. 180-3, Butyricimonas sp. 214-4, Butyricimonas sp. GD2, Butyricimonas synergistica, Butyricimonas virosa, Butyrivibrio crossotus, Campylobacter concisus, Campylobacter faecalis, Campylobacter gracilis, Campylobacter hominis, Campylobacter rectus, Campylobacter sp. 0402694-C0078, Campylobacter sp. 10_1_50, Campylobacter ureolyticus, Capnocytophaga gingivalis, Capnocytophaga sp. oral taxon 329, Carnobacterium maltaromaticum, Catabacter hongkongensis, Catenibacterium mitsuokai, Cellulosilyticum lentocellum, Cellulosilyticum ruminicola, Cetobacterium somerae, Christensenella minuta, Citrobacter amalonaticus, Citrobacter sp. BW4, Citrobacter sp. HD4.9, Cloacibacillus evryensis, Cloacibacillus porcorum, Cloacibacterium rupense, Clostridium ventriculi, Collinsella aerofaciens, Collinsella intestinalis, Collinsella tanakaei, Coprobacillus sp. D6, Coprobacter fastidiosus, Coprobacter secundus, Corynebacterium argentoratense, Corynebacterium canis, Corynebacterium ciconiae, Corynebacterium diphtheriae, Corynebacterium durum, Corynebacterium epidermidicanis, Corynebacterium frankenforstense, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium matruchotii, Corynebacterium sp., Corynebacterium sp. 713182/2012, Corynebacterium sp. NML 97-0186, Corynebacterium sp. NML96-oo85, Corynebacterium sp. full20, Corynebacterium spheniscorum, Corynebacterium ulcerans, Corynebacterium vitaeruminis, Cronobacter dublinensis, Cronobacter turicensis, Cutibacterium acnes, Cutibacterium avidum, Deinococcus geothermalis, Delftia lacustris, Delftia sp. BN-SKY3, Dermabacter hominis, Dermabacter sp. HFHoo86, Desulfovibrio desulfuricans, Desulfovibrio fairfieldensis, Desulfovibrio intestinalis, Desulfovibrio sp., Desulfovibrio sp. 3_1_syn3, Desulfovibrio sp. 6_1_46AFAA, Desulfovibrio sp. G11, Desulfovibrio sp. LNB2, Desulfovibrio sp. UNSW3caefatS, Dialister invisus, Dialister pneumosintes, Dialister propionicifaciens, Dialister sp. E2_200, Dialister sp. S4-23, Dialister sp. S7MSR5, Dialister succinatiphilus, Dielma fastidiosa, Dolosigranulum pigrum, Dorea formicigenerans, Dorea longicatena, Dysgonomonas gadei, Dysgonomonas oryzarvi, Eggerthella lenta, Eggerthella sinensis, Eggerthella sp. E1, Eggerthella sp. HGA1, Eisenbergiella tayi, Enterobacter cloacae, Enterobacter sp. BS2-1, Enterobacter sp. SPSA1, Enterobacter sp. UDC345, Enterococcus durans, Enterococcus faecalis, Enterococcus faecium, Enterococcus gallinarum, Enterococcus hirae, Enterococcus pallens, Enterococcus raffinosus, Enterococcus sp. C6I11, Enterococcus sp. SI-4, Enterorhabdus caecimuris, Enterorhabdus mucosicola, Eremococcus coleocola, Erysipelatoclostridium ramosum, Eubacterium limosum, Eubacterium sp. SA11, Facklamia languida, Facklamia sp. 1440-97, Facklamia sp. 164-92, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Finegoldia sp. BV3C29, Finegoldia sp. S8 F7, Finegoldia sp. S9 AA1-5, Flavonifractor plautii, Fusicatenibacter saccharivorans, Fusobacterium equinum, Fusobacterium mortiferum, Fusobacterium necrogenes, Fusobacterium nucleatum, Fusobacterium periodonticum, Fusobacterium sp. ACB2, Fusobacterium sp. AS2, Fusobacterium sp. CM1, Fusobacterium sp. CM21, Fusobacterium sp. DJF_B100, Fusobacterium sp. OBRC1, Fusobacterium ulcerans, Fusobacterium varium, Gardnerella sp. S3PF20, Gardnerella vaginalis, Gemella asaccharolytica, Gemella sp. 933-88, Globicatella sanguinis, Globicatella sulfidifaciens, Gordonibacter pamelaeae, Granulicatella adiacens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Hafnia alvei, Helcococcus kunzii, Helcococcus seattlensis, Helcococcus sueciensis, Herbaspirillum seropedicae, Herbaspirillum sp. AU13035, Herbaspirillum sp. YR522, Holdemania filiformis, Howardella ureilytica, Hydrogenophilus islandicus, Intestinimonas butyriciproducens, Jonquetella anthropi, Klebsiella oxytoca, Klebsiella pneumoniae, Klebsiella sp. B12, Klebsiella sp. SOR89, Kluyvera georgiana, Lachnoanaerobaculum sp. OBRC5-5, Lachnospira pectinoschiza, Lactobacillus acidophilus, Lactobacillus animalis, Lactobacillus curvatus, Lactobacillus delbrueckii, Lactobacillus faecis, Lactobacillus fermentum, Lactobacillus fornicalis, Lactobacillus gasseri, Lactobacillus iners, Lactobacillus jensenii, Lactobacillus johnsonii, Lactobacillus kefiranofaciens, Lactobacillus kefiri, Lactobacillus paracasei, Lactobacillus plantarum, Lactobacillus pontis, Lactobacillus rhamnosus, Lactobacillus ruminis, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. BL302, Lactobacillus sp. C30An8, Lactobacillus sp. C4I1, Lactobacillus sp. C412, Lactobacillus sp. CR-609S, Lactobacillus sp. Mbohs2t7, Lactobacillus sp. S16, Lactobacillus sp. TAB-26, Lactobacillus sp. Thmro2, Lactobacillus sp. oral taxon o52, Lactobacillus vaginalis, Lactococcus raffinolactis, Lactococcus sp. D2, Lactococcus sp. MH5-2, Lactococcus sp. STM1, Lactococcus sp. TPiMJ, Lactococcus sp. TP2MJ, Lactonifactor longoviformis, Lautropia sp. TeTO, Leuconostoc gelidum, Leuconostoc inhae, Leuconostoc lactis, Leuconostoc mesenteroides, Leuconostoc sp. C7I4, Lysinibacillus sp. SJ2SN2, Lysinibacillus sphaericus, Mannheimia varigena, Megamonas funiformis, Megamonas rupellensis, Megasphaera genomosp. C1, Megasphaera massiliensis, Megasphaera micronuciformis, Megasphaera sp. BS-4, Megasphaera sp. BV3C16-1, Megasphaera sp. DNF00872, Megasphaera sp. DNF00912, Megasphaera sp. S6-MB2, Megasphaera sp. TrE9262, Megasphaera sp. UPII 135-E, Megasphaera sp. UPII 199-6, Mesorhizobium loti, Mesorhizobium sp. mat916, Methanobrevibacter smithii, Methanobrevibacter sp., Methanosphaera cuniculi, Methanosphaera stadtmanae, Methylobacterium sp. CBMB45, Methylobacterium sp. RK-2008-1, Mitsuokella multacida, Mitsuokella sp. DJF_RR21, Mitsuokella sp. TM-10, Mobiluncus curtisii, Mobiluncus mulieris, Mogibacterium timidum, Moraxella sp. WB19-16, Morganella morganii, Murdochiella asaccharolytica, Murdochiella sp. S5-A16, Murdochiella sp. S9 PR-10, Negativicoccus succinicivorans, Neisseria flavescens, Neisseria mucosa, Nosocomiicoccus ampullae, Ochrobactrum sp. SCTS14, Odoribacter splanchnicus, Oligella urethralis, Olsenella sp. 1183, Olsenella sp. S9 HS-6, Oribacterium sp. CM12, Oribacterium sp. OBRC12, Oscillibacter sp. 1-3, Oscillibacter valericigenes, Oscillospira guilliermondii, Pantoea sp. CWB304, Parabacteroides chinchillae, Parabacteroides distasonis, Parabacteroides faecis, Parabacteroides goldsteinii, Parabacteroides gordonii, Parabacteroides johnsonii, Parabacteroides merdae, Parabacteroides sp. 20_3, Parabacteroides sp. D13, Parabacteroides sp. D25, Parabacteroides sp. J1502, Parabacteroides sp. dnLKV8, Paraeggerthella hongkongensis, Paraprevotella clara, Paraprevotella xylaniphila, Parasporobacterium paucivorans, Parasutterella excrementihominis, Parvimonas micra, Parvimonas sp. oral taxon 393, Pediococcus argentinicus, Pediococcus sp. 310702, Pediococcus sp. MFC1, Pelomonas aquatica, Peptococcus sp. S9 Pr-12, Peptococcus sp. canine oral taxon 334, Peptoniphilus duerdenii, Peptoniphilus indolicus, Peptoniphilus koenoeneniae, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. BV3AC2, Peptoniphilus sp. DNF00192, Peptoniphilus sp. DNF00840, Peptoniphilus sp. JCM 8143, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. oral taxon 375, Peptoniphilus sp. oral taxon 836, Peptostreptococcus stomatis, Phascolarctobacterium faecium, Phascolarctobacterium sp. 377, Phascolarctobacterium sp. canine oral taxon 149, Phascolarctobacterium succinatutens, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas sp. 2024b, Porphyromonas sp. S8 86-12, Porphyromonas uenonis, Prevotella amnii, Prevotella buccalis, Prevotella nigrescens, Prevotella oris, Prevotella sp. S4-10, Prevotella sp. WAL 2039G, Propionibacterium freudenreichii, Propionibacterium sp. KPL1844, Propionibacterium sp. KPL2005, Propionibacterium sp. MSP09A, Proteus mirabilis, Pseudobutyrivibrio ruminis, Pseudoclavibacter bifida, Pseudoclavibacter sp. Timone, Pseudoflavonifractor capillosus, Pseudomonas citronellolis, Pseudomonas monteilii, Pseudomonas sp. a101-18-2, Pyramidobacter piscolens, Rahnella sp. BSP18, Rahnella sp. FB303, Rhizobium sp. T45, Rikenella microfusus, Robinsoniella sp. KNHs210, Romboutsia lituseburensis, Roseburia cecicola, Roseburia hominis, Roseburia intestinalis, Roseburia inulinivorans, Roseburia sp. 11SE39, Roseburia sp. 499, Roseburia sp. DJF_RR73, Rothia dentocariosa, Rothia mucilaginosa, Rothia sp. BBH4, Rothia sp. RV13, Rothia sp. THG-N7, Salmonella enterica, Selenomonas sp. Ycb08, Serratia nematodiphila, Shinella sp. DR33, Slackia equolifaciens, Slackia faecicanis, Slackia piriformis, Slackia sp. NATTS, Sneathia sanguinegens, Sphingomonas sp. 24T, Sporomusa sphaeroides, Staphylococcus aureus, Staphylococcus equorum, Staphylococcus sp. C912, Stenotrophomonas sp. C-S-TSA3, Stenotrophomonas sp. KITS-1, Streptococcus anginosus, Streptococcus australis, Streptococcus dentirousetti, Streptococcus dysgalactiae, Streptococcus equinus, Streptococcus gordonii, Streptococcus mutans, Streptococcus parasanguinis, Streptococcus pasteurianus, Streptococcus peroris, Streptococcus sobrinus, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Ileo_MS_A10, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. 2011_Oral_MS_D12, Streptococcus sp. 324402, Streptococcus sp. GMD6S, Streptococcus sp. S16-11, Streptococcus suis, Streptococcus thermophilus, Subdoligranulum variabile, Succinatimonas hippei, Sutterella sp. 252, Sutterella sp. YIT 12072, Sutterella stercoricanis, Sutterella wadsworthensis, Terrisporobacter glycolicus, Tessaracoccus lapidicaptus, Trueperella bernardiae, Turicibacter sanguinis, Turicibacter sp. LA62, Vagococcus teuberi, Varibaculum cambriense, Varibaculum sp. CCUG 61255, Variovorax sp. TA_DQ, Veillonella dispar, Veillonella montpellierensis, Veillonella parvula, Veillonella ratti, Veillonella seminalis, Veillonella sp. 2011_Oral_VSA_B12, Veillonella sp. 2011_Oral_VSA_C9, Veillonella sp. 2011_Oral_VSA_D12, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. ADV 269.01, Veillonella sp. AS16, Veillonella sp. JL-2, Veillonella sp. oral taxon 780, Weissella cibaria, Weissella confusa, Weissella hellenica, Weissella sp. H1a, Yersinia enterocolitica, [Collinsella] massiliensis, Abiotrophia, Acetanaerobacterium, Acetito maculum, Acetivibrio, Acholeplasma, Achro mobacter, Acidaminococcus, Acidovorax, Acinetobacter, Adlercreutzia, Aerococcus, Aeromonas, Aerosphaera, Akkermansia, Alistipes, Allobaculum, Alloprevotella, Alloscardovia, Anaerobacter, Anaerobacterium, Anaerococcus, Anaerofustis, Anaeroplasma, Anaerosinus, Anaerosporobacter, Anaero stipes, Anaerotruncus, Anaerovibrio, Anaerovorax, Arthrobacter, Arthrospira, Asaccharobacter, Asaccharospora, Asteroleplasma, Atopobiurn, Bacillus, Bacteroides, Barnesiella, Bifidobacterium, Bilophila, Blautia, Bosea, Brachyspira, Brevibacterium, Butyricicoccus, Butyricimonas, Butyrivibrio, Caldicoprobacter, Candidatus Methanomethylophilus, Candidatus Soleaferrea, Candidatus Stoquefichus, Capnocytophaga, Carnobacterium, Catabacter, Catenibacterium, Cellulosilyticum, Centipeda, Cetobacterium, Christensenella, Citrobacter, Cloacibacillus, Cloacibacterium, Clostridioides, Clostridium, Collinsella, Comamonas, Coprobacillus, Coprobacter, Corynebacterium, Cryobacterium, Defluviimonas, Deinococcus, Denitratisoma, Denitrobacterium, Dermabacter, Desulfovibrio, Dielma, Dolosigranulum, Dorea, Dysgonomonas, Eggerthella, Eisenbergiella, Elusimicrobium, Enterobacter, Enterorhabdus, Epulopiscium, Eremococcus, Erysipelatoclostridium, Eubacterium, Faecalibacterium, Fastidiosipila, Finegoldia, Flavobacterium, Flavonifractor, Fusicatenibacter, Fusobacterium, Gardnerella, Gelria, Globicatella, Gordonibacter, Granulicatella, Haemophilus, Hafnia, Helcococcus, Helicobacter, Herbaspirillum, Hespellia, Holdemania, Howardella, Hydrogenoanaerobacterium, Hydrogenophilus, Intestinibacter, Intestinimonas, Jonquetella, Klebsiella, Kluyvera, Lachnoanaerobaculum, Lachnospira, Lactobacillus, Lactococcus, Lactonifactor, Lautropia, Leptotrichia, Leuconostoc, Lysinibacillus, Mannheimia, Marv inbryantia, Massilia, Megamonas, Megasphaera, Mesorhizobium, Methanobrevibacter, Methanosphaera, Mitsuokella, Mobiluncus, Mogibacterium, Moraxella, Morganella, Moryella, Murdochiella, Neisseria, Nocardioides, Nosocomiicoccus, Ochrobactrum, Odorib acter, Oligella, Oribacterium, Oscillibacter, Oscillospira, Pantoea, Papillibacter, Parabact eroides, Paraeggerthella, Paraprevotella, Parasporobacterium, Parasutterella, Pediococ cus, Pelomonas, Peptoclostridium, Peptococcus, Peptoniphilus, Peptostreptococcus, Phascolarctobacterium, Phyllobacterium, Planomicrobium, Porphyromonas, Prevotella, Propionimicrobium, Proteiniclasticum, Proteiniphilum, Providencia, Pseudobutyrivibrio, Pseudoclavibacter, Pseudoflavonifractor, Pyramidobacter, Rahnella, Rhizobium, Rhodococcus, Rikenella, Robinsoniella, Romboutsia, Roseburia, Rothia, Ruminiclostridium, Salmonella, Sarcina, Sedimentibacter, Senegalimassilia, Serratia, Shinella, Shuttleworthia, Slackia, Sneathia, Solobacterium, Sphaerochaeta, Sphingobium, Sphingomonas, Sporobacter, Sporomusa, Stenotrophomonas, Streptococcus, Subdoligranulum, Succinatimonas, Succiniclasticum, Sutterella, Synergistes, Terrisporobacter, Tessaracoccus, Thalassospira, Trueperella, Turicibacter, Vagococcus, Variovorax, Victivallis, Weissella, Yersinia
 23. The method of claim 12, wherein the first sleep-related condition comprises a bad sleep quality condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a mouth site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Acinetobacter sp. RBE2CD-114, Actinobacillus porcinus, Actinomyces cardiffensis, Actinomyces dentalis, Actinomyces genomosp. C1, Actinomyces georgiae, Actinomyces graevenitzii, Actinomyces massiliensis, Actinomyces meyeri, Actinomyces neuii, Actinomyces odontolyticus, Actinomyces oris, Actinomyces sp. ICM41, Actinomyces sp. ICM47, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S6-Spd3, Actinomyces sp. ZSY-1, Actinomyces sp. canine oral taxon 417, Actinomyces sp. oral strain B19SC, Actinomyces sp. oral strain Hal-1065, Actinomyces sp. oral taxon 170, Actinomyces sp. oral taxon 175, Actinomyces sp. oral taxon 178, Actinomyces sp. oral taxon 448, Actinomyces sp. ph3, Actinomyces viscosus, Adlercreutzia equolifaciens, Aerococcus christensenii, Aeromonas sp. B11, Aerosphaera taetra, Aggregatibacter actinomycetemcomitans, Aggregatibacter aphrophilus, Aggregatibacter segnis, Alistipes indistinctus, Alistipes massiliensis, Alistipes putredinis, Alistipes shahii, Alistipes sp. EBA6-25c12, Alistipes sp. HGB5, Alistipes sp. NML05A004, Alistipes sp. RMA 9912, Alloprevotella rava, Alloprevotella tannerae, Alloscardovia omnicolens, Anaerobacillus alkalidiazotrophicus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. S8 87-3, Anaerococcus tetradius, Anaerococcus vaginalis, Anaeroglobus geminatus, Anaerosporobacter mobilis, Anaerostipes hadrus, Anaerostipes sp. 5_1_63FAA, Anaerotruncus colihominis, Anoxybacillus sp. HT14, Aquabacterium sp. Aqua2, Arthrospira fusiformis, Asaccharospora irregularis, Atopobium parvulum, Atopobium rimae, Atopobium sp. DMCT15023, Atopobium sp. ICM57, Bacteroides acidifaciens, Bacteroides caccae, Bacteroides clarus, Bacteroides coprocola, Bacteroides coprophilus, Bacteroides dorei, Bacteroides eggerthii, Bacteroides finegoldii, Bacteroides fragilis, Bacteroides intestinalis, Bacteroides massiliensis, Bacteroides nordii, Bacteroides ovatus, Bacteroides plebeius, Bacteroides salyersiae, Bacteroides sp. 2_2_4, Bacteroides sp. 3_1_40A, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. D22, Bacteroides sp. DJF_B097, Bacteroides sp. EBA5-17, Bacteroides sp. J1511, Bacteroides sp. SLC1-38, Bacteroides sp. XB12B, Bacteroides stercoris, Bacteroides uniformis, Bacteroides vulgatus, Barnesiella intestinihominis, Bergeriella denitrificans, Bergeyella sp. AF14, Bifidobacterium adolescentis, Bifidobacterium animalis, Bifidobacterium bifidum, Bifidobacterium dentium, Bifidobacterium kashiwanohense, Bifidobacterium longum, Bifidobacterium pseudocatenulatum, Bifidobacterium sp. MSX5B, Bilophila sp. 4_1_30, Bilophila wadsworthia, Blautia faecis, Blautia glucerasea, Blautia hansenii, Blautia luti, Blautia sp. YHC-4, Blautia stercoris, Blautia wexlerae, Bradyrhizobium sp. 68A4SAPT, Burkholderia sp. S32, Butyricimonas faecihominis, Butyricimonas paravirosa, Butyricimonas sp. 214-4, Butyricimonas virosa, Campylobacter concisus, Campylobacter gracilis, Campylobacter hominis, Campylobacter hyointestinalis, Campylobacter rectus, Campylobacter showae, Campylobacter sp. 10_1_50, Campylobacter sp. FOBRC14, Campylobacter sp. FOBRC15, Campylobacter ureolyticus, Capnocytophaga genosp. AHN8471, Capnocytophaga gingivalis, Capnocytophaga granulosa, Capnocytophaga haemolytica, Capnocytophaga leadbetteri, Capnocytophaga sp. AHN10044, Capnocytophaga sp. AHN9576, Capnocytophaga sp. AHN9687, Capnocytophaga sp. CM59, Capnocytophaga sp. HS5_2W_I24, Capnocytophaga sp. P2 oral strain P4P_12, Capnocytophaga sp. oral strain A47ROY, Capnocytophaga sp. oral taxon 329, Capnocytophaga sp. oral taxon 335, Capnocytophaga sp. oral taxon 336, Capnocytophaga sp. oral taxon 338, Capnocytophaga sputigena, Cardiobacterium valvarum, Catonella morbi, Centipeda periodontii, Clostridioides difficile, Collinsella aerofaciens, Coprobacter fastidiosus, Corynebacterium durum, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium matruchotii, Corynebacterium sp., Corynebacterium sp. NML 97-0186, Corynebacterium ulcerans, Cryptobacterium curtum, Cutibacterium acnes, Cutibacterium granulosum, Delftia lacustris, Delftia sp. BN-SKY3, Desulfobulbus sp. oral taxon 041, Dialister invisus, Dialister pneumosintes, Dialister propionicifaciens, Dialister sp. E2_20, Dielma fastidiosa, Dorea formicigenerans, Dorea longicatena, Eggerthella sp. HGA1, Eggerthia catenaformis, Eikenella corrodens, Eikenella sp. MDA2346-4, Eisenbergiella tayi, Enterobacter sp. BS2-1, Erysipelatoclostridium ramosum, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Filifactor alocis, Finegoldia magna, Finegoldia sp. S9 AA1-5, Flavonifractor plautii, Fretibacterium fastidiosum, Fusicatenibacter saccharivorans, Fusobacterium nucleatum, Fusobacterium periodonticum, Fusobacterium sp. ACB2, Fusobacterium sp. AS2, Fusobacterium sp. CM21, Fusobacterium sp. CM22, Fusobacterium sp. CM55, Fusobacterium sp. OBRC1, Fusobacterium ulcerans, Gemella morbillorum, Gemella sp. 933-88, Gemella sp. oral strain C24KA, Gordonibacter pamelaeae, Granulicatella adiacens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Herbaspirillum seropedicae, Holdemania filiformis, Howardella ureilytica, Janibacter sp. M3-5, Johnsonella ignava, Kingella oralis, Kluyvera georgiana, Kocuria kristinae, Lachnoanaerobaculum orale, Lachnoanaerobaculum saburreum, Lachnoanaerobaculum sp. MSX33, Lachnoanaerobaculum sp. OBRC5-5, Lachnoanaerobaculum umeaense, Lachnospira pectinoschiza, Lactobacillus crispatus, Lactobacillus fermentum, Lactobacillus fornicalis, Lactobacillus gasseri, Lactobacillus jensenii, Lactobacillus paracasei, Lactobacillus plantarum, Lactobacillus rhamnosus, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. BL302, Lactobacillus vaginalis, Lactococcus lactis, Lactococcus sp. MH5-2, Lautropia sp. TeTO, Leptotrichia buccalis, Leptotrichia genomosp. C1, Leptotrichia goodfellowii, Leptotrichia hofstadii, Leptotrichia hongkongensis, Leptotrichia shahii, Leptotrichia sp. PG10, Leptotrichia sp. PTE15, Leptotrichia sp. oral taxon 223, Leptotrichia sp. oral taxon 225, Leptotrichia trevisanii, Leptotrichia wadei, Leuconostoc sp. C7I4, Lysinibacillus sphaericus, Mannheimia granulomatis, Megamonas funiformis, Megasphaera genomosp. C1, Megasphaera micronuciformis, Megasphaera sp. UPII 199-6, Meiothermus silvanus, Methanobrevibacter smithii, Methanosphaera stadtmanae, Methylobacterium longum, Methylobacterium sp. RK-2008-1, Mogibacterium pumilum, Mogibacterium sp. CM500, Mogibacterium sp. CM96, Murdochiella sp. S9 PR-10, Mycoplasma falconis, Mycoplasma sp. M221-9, Mycoplasma subdolum, Necropsobacter rosorum, Negativicoccus succinicivorans, Neisseria bacilliformis, Neisseria canis, Neisseria cinerea, Neisseria elongata, Neisseria flava, Neisseria flavescens, Neisseria macacae, Neisseria meningitidis, Neisseria mucosa, Neisseria oralis, Neisseria polysaccharea, Neisseria shayeganii, Neisseria sicca, Neisseria skkuensis, Neisseria sp. 104(2012), Neisseria sp. CCUG 45853, Neisseria wadsworthii, Novosphingobium sediminicola, Odoribacter laneus, Odoribacter splanchnicus, Olsenella sp. Fooo4, Olsenella uli, Oribacterium sp. CM12, Oribacterium sp. OBRC12, Oribacterium sp. oral taxon 078, Oribacterium sp. oral taxon 102, Oribacterium sp. oral taxon 108, Parabacteroides distasonis, Parabacteroides johnsonii, Parabacteroides merdae, Paraprevotella clara, Paraprevotella xylaniphila, Parasutterella excrementihominis, Parvimonas micra, Parvimonas sp. oral taxon 110, Parvimonas sp. oral taxon 393, Peptococcus sp. oral taxon 168, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptostreptococcus anaerobius, Peptostreptococcus stomatis, Phascolarctobacterium faecium, Phascolarctobacterium sp. 377, Phascolarctobacterium succinatutens, Phyllobacterium sp. T50, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas catoniae, Porphyromonas endodontalis, Porphyromonas gingivalis, Porphyromonas gulae, Porphyromonas somerae, Porphyromonas sp. 2024b, Porphyromonas sp. S8 86-12, Porphyromonas uenonis, Prevotella amnii, Prevotella aurantiaca, Prevotella bivia, Prevotella buccalis, Prevotella disiens, Prevotella intermedia, Prevotella maculosa, Prevotella micans, Prevotella nanceiensis, Prevotella oralis, Prevotella oris, Prevotella oulorum, Prevotella pallens, Prevotella sp. HJM029, Prevotella sp. S4-10, Prevotella sp. Smarlab 121567, Prevotella sp. WAL 2039G, Prevotella sp. oral taxon 299, Prevotella timonensis, Propionibacterium acidifaciens, Propionibacterium sp. ‘Oral Taxon 191’, Propionibacterium sp. MSP09A, Propionibacterium sp. V07/12348, Pseudoflavonifractor capillosus, Pseudomonas sp. KB23, Pseudomonas sp. a111-5, Pseudomonas syringae, Pseudopropionibacterium propionicum, Ralstonia sp. S2.MAC.005, Rodentibacter pneumotropicus, Roseburia cecicola, Roseburia faecis, Roseburia hominis, Roseburia intestinalis, Roseburia inulinivorans, Roseburia sp. 11SE39, Rothia aeria, Rothia dentocariosa, Rothia mucilaginosa, Rothia sp. CCUG 25688, Rothia sp. THG-N7, Rothia sp. THG-T3, Scardovia wiggsiae, Selenomonas genomosp. P5, Selenomonas sp. CM52, Selenomonas sputigena, Shinella sp. DR33, Shuttleworthia sp. oral taxon G69, Simonsiella muelleri, Slackia exigua, Slackia sp. S8 F4, Sneathia sanguinegens, Solobacterium moorei, Solobacterium sp. S4-A19, Sphingomonas sp. 540, Staphylococcus epidermidis, Staphylococcus saprophyticus, Staphylococcus sp. 334802, Staphylococcus sp. C912, Stenotrophomonas sp. KITS-1, Stenotrophomonas sp. NB3, Stomatobaculum longum, Streptococcus agalactiae, Streptococcus australis, Streptococcus dentirousetti, Streptococcus equinus, Streptococcus gordonii, Streptococcus intermedius, Streptococcus mitis, Streptococcus mutans, Streptococcus parasanguinis, Streptococcus peroris, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. 2011_Oral_MS_H4, Streptococcus sp. BS35a, Streptococcus sp. GMD6S, Streptococcus sp. oral taxon G59, Streptococcus sp. oral taxon G63, Streptococcus thermophilus, Subdoligranulum variabile, Sutterella sp. 252, Sutterella sp. YIT 12072, Sutterella stercoricanis, Sutterella wadsworthensis, Tannerella forsythia, Tannerella sp. oral taxon HOT-286, Terrisporobacter glycolicus, Tessaracoccus lapidicaptus, Turicibacter sanguinis, Vagococcus sp. SIX2(2011), Varibaculum sp. CCUG 45114, Veillonella atypica, Veillonella dispar, Veillonella parvula, Veillonella rodentium, Veillonella rogosae, Veillonella sp. 2011_Oral_VSA_B12, Veillonella sp. 2011_Oral_VSA_C9, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. 6_1_27, Veillonella sp. ADV 269.01, Veillonella sp. AS16, Veillonella sp. CM60, Veillonella sp. JL-2, Veillonella sp. MSA12, Veillonella sp. oral taxon 780, Veillonella tobetsuensis, Abiotrophia, Acetitomaculum, Acholeplasma, Achromobacter, Acinetobacter, Actinobacillus, Actinomyces, Adlercreutzia, Aerococcus, Aeromonas, Aerosphaera, Aggregatibacter, Akkermansia, Alistipes, Alloprevotella, Alloscardovia, Alysiella, Anaerobacillus, Anaerococcus, Anaeroplasma, Anaerosporobacter, Anaerostipes, Anaerotruncus, Anoxybacillus, Aquabacterium, Arcanobacterium, Arthrospira, Asaccharospora, Asteroleplasma, Atopobium, Bacillus, Bacteroides, Barnesiella, Bergeriella, Bergeyella, Bilophila, Blautia, Bradyrhizobium, Burkholderia, Butyricimonas, Butyrivibrio, Campylobacter, Candidatus Saccharimonas, Candidatus Soleaferrea, Capnocytophaga, Cardiobacterium, Catenibacterium, Catonella, Centipeda, Chryseobacterium, Cloacibacterium, Clostridium, Collinsella, Comamonas, Coprobacter, Corynebacterium, Cryptobacterium, Cutibacterium, Deinococcus, Delftia, Desulfobulbus, Desulfovibrio, Dialister, Dorea, Eggerthia, Eikenella, Eisenbergiella, Enterobacter, Enterococcus, Enterorhabdus, Erysipelatoclostridium, Faecalibacterium, Filifactor, Finegoldia, Flavobacterium, Flavonifractor, Fretibacterium, Fusicatenibacter, Fusobacterium, Gemella, Gordonibacter, Granulicatella, Haemophilus, Herbaspirillum, Hespellia, Holdemania, Howardella, Intestinibacter, Intestinimonas, Janibacter, Johnsonella, Kingella, Kiebsiella, Kluyvera, Kocuria, Lachnoanaerobaculum, Lachnospira, Lactobacillus, Lactococcus, Lactonifactor, Lautropia, Leptotrichia, Leuconostoc, Lysinibacillus, Mannheimia, Marvinbryantia, Megamonas, Megasphaera, Methanobrevibacter, Methanosphaera, Methylobacterium, Mobiluncus, Mogibacterium, Moraxella, Moryella, Murdochiella, Mycobacterium, Mycoplasma, Necropsobacter, Negativicoccus, Neisseria, Novosphingobium, Odoribacter, Olsenella, Oribacterium, Oscillibacter, Oscillospira, Pantoea, Parabacteroides, Parasutterella, Parvimonas, Pasteurella, Peptoclostridium, Peptococcus, Peptoniphilus, Peptostreptococcus, Phascolarctobacterium, Phyllobacterium, Planomicrobium, Porphyromonas, Prevotella, Propionibacterium, Pseudobutyrivibrio, Pseudoflavonifractor, Pseudomonas, Pyramidobacter, Ralstonia, Rhodobacter, Robinsoniella, Romboutsia, Roseburia, Rothia, Sarcina, Scardovia, Selenomonas, Senegalimassilia, Shinella, Shuttleworthia, Simonsiella, Slackia, Sneathia, Snodgrassella, Solobacterium, Staphyl ococcus, Stenotrophomonas, Stomatobaculum, Streptobacillus, Streptococcus, Subdoligranulum, Sutterella, Tannerella, Terrisporobacter, Tessaracoccus, Thalassospira, Trichococcus, Turicibacter, Vagococcus, Varibaculum, Veillonella, Victivallis, Abiotrophia defectiva, Achromobacter xylosoxidans, Acidovorax sp. LR05, Acinetobacter baumannii, Acinetobacter calcoaceticus, Acinetobacter haemolyticus, Acinetobacter kyonggiensis, Acinetobacter sp. 2002-23012 17, Acinetobacter sp. 423 D, Acinetobacter sp. C-S-PDA7, Acinetobacter sp. Co49, Acinetobacter sp. HD5.2, Acinetobacter sp. RBE2CD-114, Acinetobacter sp. RBE2CD-76, Acinetobacter sp. RE 51, Acinetobacter sp. STE, Acinetobacter sp. T133, Acinetobacter sp. WB2 2-23, Acinetobacter ursingii, Actinobacillus porcinus, Actinobaculum massiliense, Actinomyces europaeus, Actinomyces georgiae, Actinomyces gerencseriae, Actinomyces israelii, Actinomyces massiliensis, Actinomyces neuii, Actinomyces radingae, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S4-C9, Actinomyces sp. oral taxon 175, Actinomyces sp. oral taxon 448, Actinomyces sp. ph3, Actinomyces viscosus, Actinomycetospora sp. CAP 335, Aerococcus christensenii, Aerococcus sp. B43(20100), Aerococcus urinae, Aerococcus viridans, Aeromonas salmonicida, Aerosphaera taetra, Aggregatibacter aphrophilus, Aggregatibacter segnis, Akkermansia muciniphila, Albidovulum inexpectatum, Alishewanella sp. Mn5-6, Alistipes finegoldii, Alistipes inops, Alistipes putredinis, Alistipes shahii, Alistipes sp. EBA6-25cl2, Alistipes sp. NML05A004, Alloiococcus otitis, Alloprevotella rava, Alloprevotella tannerae, Anaerobacillus alkalidiazotrophicus, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S8 F2, Anaerococcus tetradius, Anaerococcus vaginalis, Anaeroglobus geminatus, Anaerostipes sp. 5_1_63FAA, Anoxybacillus sp. HT14, Aquabacterium commune, Aquabacterium sp. Aqua2, Arthrobacter sp. T2-4, Arthrospira fusiformis, Atopobium minutum, Atopobium rimae, Atopobium sp. S3PFAA1-4, Atopobium sp. S4-A11a, Atopobium vaginae, Aureimonas altamirensis, Aureimonas phyllosphaerae, Bacillus cereus, Bacillus nanhaiisediminis, Bacillus niacini, Bacillus pseudofirmus, Bacillus sp. CBMAI 1158, Bacillus sp. DHT-33, Bacillus sp. T41, Bacteroides acidifaciens, Bacteroides caccae, Bacteroides coprocola, Bacteroides eggerthii, Bacteroides fragilis, Bacteroides massiliensis, Bacteroides ovatus, Bacteroides salyersiae, Bacteroides sp. 2_2_4, Bacteroides sp. 35AE37, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. D22, Bacteroides sp. EBA5-17, Bacteroides sp. SLC1-38, Bacteroides stercoris, Bacteroides thetaiotaomicron, Bacteroides uniformis, Bacteroides vulgatus, Barnesiella intestinihominis, Bergeyella sp. AF14, Bergeyella zoohelcum, Bibersteinia trehalosi, Bifidobacterium adolescentis, Bifidobacterium longum, Bifidobacterium stercoris, Bilophila sp. 4_1_300, Bilophila wadsworthia, Blastocatella fastidiosa, Blastococcus aggregatus, Blastococcus sp. 0705C6-3, Blastococcus sp. FXJ6.383, Blautia faecis, Blautia luti, Blautia sp. YHC-4, Blautia wexlerae, Bosea sp. BIWAKO-01, Bosea sp. R-46060, Brachybacterium muris, Brachybacterium sp. NIO-27, Brachybacterium sp. b110-100S, Brachymonas sp. canine oral taxon 015, Bradyrhizobium sp. 68A4SAPT, Bradyrhizobium sp. CCBAU 53380, Bradyrhizobium sp. P-45, Brevibacterium massiliense, Brevibacterium paucivorans, Brevibacterium pityocampae, Brevibacterium sp. A9C6, Brevibacterium sp. MBTD_CMFRI_Br02, Brevundimonas diminuta, Brevundimonas sp. FXJ8.080, Brevundimonas Sp. JW23.4a, Brevundimonas sp. V3M6, Brevundimonas subvibrioides, Burkholderia lata, Burkholderia sp. CBPB-HIM, Burkholderia sp. S32, Campylobacter concisus, Campylobacter gracilis, Campylobacter hominis, Campylobacter showae, Capnocytophaga genosp. AHN8471, Capnocytophaga gingivalis, Capnocytophaga ochracea, Capnocytophaga sp. AHN10044, Capnocytophaga sp. AHN9756, Capnocytophaga sp. CM59, Capnocytophaga sp. oral taxon 329, Capnocytophaga sp. oral taxon 338, Capnocytophaga sputigena, Cardiobacterium hominis, Catonella morbi, Centipeda periodontii, Chryseobacterium haifense, Chryseobacterium sp. BBCT14, Chryseobacterium sp. IIL-Nv8, Chryseobacterium sp. MH28, Chryseobacterium sp. R064, Chryseobacterium sp. YiD, Citrobacter sp. BW4, Cloacibacterium rupense, Clostridioides difficile, Collinsella aerofaciens, Comamonas sp. P-115, Comamonas sp. RV_A09_23b, Corynebacterium atypicum, Corynebacterium canis, Corynebacterium caspium, Corynebacterium diphtheriae, Corynebacterium durum, Corynebacterium epidermidicanis, Corynebacterium felinum, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium matruchotii, Corynebacterium sp., Corynebacterium sp. 2300500, Corynlebacterium sp. 713182/2012, Corynebacterium sp. NML 97-0186, Corynebacterium sp. jw37, Corynebacterium spheniscorum, Corynebacterium ulcerans, Cronobacter sakazakii, Cryobacterium psychrotolerans, Cryptobacterium curtum, Curvibacter gracilis, Cutibacterium acnes, Cutibacterium avidum, Cutibacterium granulosum, Deinococcus antarcticus, Deinococcus sp. 3B1, Deinococcus sp. UAC-77, Delftia lacustris, Delftia sp. BN-SKY3, Dermabacter hominis, Dermabacter sp. HFH0086, Dermacoccus nishinomiyaensis, Dermacoccus sp. D2.1, Dermacoccus sp. Ellin183, Dermacoccus sp. Ellin185, Dermacoccus sp. SST-20, Desulfovibrio sp., Dialister invisus, Dialister pneumosintes, Dialister propionicifaciens, Dialister sp. E2_20, Dialister sp. S7MSR5, Dolosigranulum pigrum, Dorea formicigenerans, Dorea longicatena, Effusibacillus pohliae, Eggerthella lenta, Eikenella corrodens, Eisenbergiella tayi, Enterobacter cloacae, Enterococcus sp. SI-4, Eremococcus coleocola, Exiguobacterium sibiricum, Exiguobacterium sp. icr3, Facklamia hominis, Facklamia languida, Facklamia sp. 164-92, Facklamia tabacinasalis, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Fastidiosipila sanguinis, Filifactor alocis, Finegoldia magna, Finegoldia sp. S9 AA1-5, Flavobacterium sp. EP372, Flavobacterium sp. bk_25, Fretibacterium fastidiosum, Frigoribacterium sp. 181, Fusicatenibacter saccharivorans, Fusobacterium equinum, Fusobacterium nucleatum, Fusobacterium periodonticum, Fusobacterium russii, Fusobacterium sp. ACB2, Fusobacterium sp. AS2, Fusobacterium sp. CM21, Fusobacterium sp. CM22, Gardnerella sp. S3PF20, Gardnerella vaginalis, Gemella morbillorum, Gemella sp. 933-88, Granulicatella adiacens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Halomonas pacifica, Herbaspirillum huttiense, Herbaspirillum seropedicae, Hydrogenophilus islandicus, Janibacter sp. IARI-RP17, Janibacter sp. M3-5, Jeotgalicoccus aerolatus, Johnsonella ignava, Jonquetella anthropi, Klebsiella oxytoca, Klebsiella pneumoniae, Kluyvera georgiana, Kocuria carniphila, Kocuria kristinae, Kocuria marina, Kocuria rhizophila, Kocuria sp. BRI 36, Kocuria sp. FXJ6.339, Kocuria sp. LW2-LEVI2-W, Lachnoanaerobaculum saburreum, Lachnospira pectinoschiza, Lactobacillus crispatus, Lactobacillus curvatus, Lactobacillus delbrueckii, Lactobacillus fornicalis, Lactobacillus gasseri, Lactobacillus jensenii, Lactobacillus paracasei, Lactobacillus plantarum, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. CR-609S, Lactobacillus sp. TAB-26, Lactobacillus vaginalis, Lactococcus lactis, Lactococcus sp. MH5-2, Lautropia sp. TeTO, Leptotrichia buccalis, Leptotrichia hongkongensis, Leptotrichia shahii, Leptotrichia sp. oral taxon 225, Leptotrichia wadei, Leucobacter aridicollis, Leucobacter sp. LR-2006b, Leuconostoc carnosum, Leuconostoc lactis, Leuconostoc mesenteroides, Luteimonas mephitis, Lysinibacillus sp. SJ2SN2, Lysinibacillus sphaericus, Macrococcus brunensis, Macrococcus caseolyticus, Malassezia restricta, Massilia oculi, Megasphaera sp. BV3C16-1, Megasphaera sp. UPII 199-6, Meiothermus silvanus, Mesorhizobium loti, Mesorhizobium sp. RE 62, Mesorhizobium sp. mat916, Methanobrevibacter smithii, Methylobacterium adhaesivum, Methylobacterium sp. CBMB45, Methylobacterium sp. CCGE4019, Methylobacterium sp. Gh-143, Methylobacterium sp. RK-2008-1, Microbacterium lacticum, Microbacterium sp. PcRB024, Microbacterium yannicii, Micrococcus luteus, Micrococcus sp. WB18-01, Microlunatus phosphovorus, Microvirga aerilata, Microvirga sp. BR10193, Microvirga sp. TSX10-2, Mobiluncus mulieris, Modestobacter multiseptatus, Mogibacterium pumilum, Moraxella catarrhalis, Moraxella lincolnii, Moraxella nonliquefaciens, Moraxella sp. BBN2P-02d, Moraxella sp. WB19-16, Murdochiella sp. S9 PR-10, Mycobacterium chelonae, Mycobacterium sp. KNUC297, Mycobacterium sp. UNC410CL29Cvi84, Negativicoccus succinicivorans, Neisseria canis, Neisseria elongata, Neisseria flavescens, Neisseria macacae, Neisseria meningitidis, Neisseria mucosa, Neisseria oralis, Neisseria shayeganii, Neisseria skkuensis, Neisseria sp. CCUG 45853, Nocardioides mesophilus, Novosphingobium sediminicola, Novosphingobium sp. THA_AIK7, Ochrobactrum sp. FPY8, Ochrobactrum sp. SCTS14, Ochrobactrum tritici, Olsenella sp. Foo04, Oribacterium sp. CM12, Oribacterium sp. oral taxon 078, Ornithinimicrobium sp. TH G-GM43, Ornithinimicrobium sp. XiC, Pantoea agglomerans, Pantoea gaviniae, Parabacteroides distasonis, Parabacteroides goldsteinii, Paraprevotella clara, Parasutterella excrementihominis, Parvimonas micra, Paucibacter toxinivorans, Pectobacterium carotovorum, Pedomicrobium ferrugineum, Pelomonas aquatica, Peptococcus niger, Peptococcus sp. oral taxon 168, Peptoniphilus coxii, Peptoniphilus duerdenii, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptonliphilus sp. 7-2, Peptoniphilus sp. DNF00840, Peptoniphilus sp. JCM 8143, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. gpac148, Peptoniphilus sp. oral taxon 836, Peptostreptococcus anaerobius, Peptostreptococcus stomatis, Phascolarctobacterium faecium, Photobacterium sp. squidInt_04, Phyllobacterium sp. T50, Planococcus sp. ljh-25, Porphyrobacter sp. NMC22, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas cangingivalis, Porphyromonas canoris, Porphyromonas catoniae, Porphyromonas endodontalis, Porphyromonas sp. 2026, Porphyromonas uenonis, Prevotella bivia, Prevotella buccalis, Prevotella disiens, Prevotella intermedia, Prevotella micans, Prevotella nanceiensis, Prevotella nigrescens, Prevotella oris, Prevotella oulorum, Prevotella pallens, Prevotella sp. S4-10, Prevotella sp. WAL 2039G, Propionibacterium sp. KPL1844, Propionibacterium sp. KPL2005, Propionibacterium sp. MSPo9A, Propionibacterium sp. V07/12348, Propionimicrobium lymphophilum, Pseudoclavibacter bifida, Pseudoclavibacter sp. Timone, Pseudoflavonifractor capillosus, Pseudomonas aeruginosa, Pseudomonas agarici, Pseudomonas brenneri, Pseudomonas citronellolis, Pseudomonas graminis, Pseudomonas monteilii, Pseudomonas sp. BM5, Pseudomonas sp. CBMAI 1177, Pseudomonas sp. Gn116, Pseudomonas sp. GmFRB023, Pseudomonas sp. KB23, Pseudomonas sp. KNUC378, Pseudomonas sp. PDD-31b-4, Pseudomonas sp. PKG89, Pseudomonas sp. PcFRB100, Pseudomonas sp. PcFRB119, Pseudomonas sp. a101-18-2, Pseudomonas syringae, Pseudonocardia sp. CC981102-15, Pseudopropionibacterium propionicum, Rahnella sp. BSP18, Ralstonia pickettii, Ralstonia sp. A52, Ralstonia sp. CCUG 46389, Ralstonia sp. S2.MAC.005, Raoultella ornithinolytica, Rhizobium etli, Rhizobium sp. 10II, Rhizobium sp. T45, Rhizobium sp. sc-w, Rhodobacter capsulatus, Rhodococcus erythropolis, Rhodococcus sp. CO56, Rhodopseudomonas boonkerdii, Rhodopseudomonas thermotolerans, Rodentibacter pneumotropicus, Roseburia faecis, Roseburia intestinalis, Roseburia inulinivorans, Roseburia sp. 11SE39, Rothia aeria, Rothia dentocariosa, Rothia mucilaginosa, Rothia sp. CCUG 25688, Rothia sp. THG-N7, Salana multivorans, Selenomonas genomosp. P5, Shewanella sp. 8113, Shinella sp. DR33, Solobacterium moorei, Sphingobacterium mizutaii, Sphingobium sp. LC341, Sphingobium sp. MH60, Sphingomonas aerolata, Sphingomonas aquatilis, Sphingomonas dokdonensis, Sphingomonas oligophenolica, Sphingomonas paucimobilis, Sphingomonas sp. 24T, Sphingomonas sp. 540, Sphingomonas sp. CS81, Sphingomonas sp. PDD-26b-16, Staphylococcus aureus, Staphylococcus epidermidis, Staphylococcus equorum, Staphylococcus saprophyticus, Staphylococcus simulans, Staphylococcus sp. 155b, Staphylococcus sp. 334802, Staphylococcus sp. 335602, Staphylococcus sp. C-D-MA2, Staphylococcus sp. C9I2, Staphylococcus sp. L10, Staphylococcus sp. WB18-16, Staphylococcus vitulinus, Stenotrophomonas sp. C-S-TSA3, Stenotrophomonas sp. I_63-LFP1A9B1, Stenotrophomonas sp. KITS-1, Stenotrophomonas sp. N017, Stenotrophomonas sp. TV49May, Stenotrophomonas sp. Z2-S2, Streptococcus dysgalactiae, Streptococcus gordonii, Streptococcus mutans, Streptococcus parasanguinis, Streptococcus pneumoniae, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Ileo_MS_A10, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. BS35a, Streptococcus sp. GMD6S, Streptococcus sp. oral taxon G59, Streptococcus sp. oral taxon G63, Streptococcus thermophilus, Sutterella stercoricanis, Tannerella forsythia, Tannerella sp. oral taxon HOT-286, Tepidimonas sp. AK30, Terrisporobacter glycolicus, Tessaracoccus lapidicaptus, Tessaracoccus sp. SL014B-79A, Thermomonas brevis, Thermus sp., Turicibacter sanguinis, Varibaculum cambriense, Varibaculum sp. CCUG 45114, Variovorax sp. IMER-B2-7, Variovorax sp. MM43Nov, Veillonella montpellierensis, Veillonella rogosae, Veillonella seminalis, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. AS16, Veillonella sp. CM60, Veillonella sp. MSA12, Veillonella sp. oral taxon 780, Weissella confusa, Weissella hellenica, Xanthomonas campestris, Yersinia enterocolitica, Abiotrophia, Acetitomaculum, Achromobacter, Acidiphilium, Acidovorax, Acinetobacter, Actinobacillus, Actinobaculum, Actinomyces, Actinomycetospora, Adhaeribacter, Aerococcus, Aeromicrobium, Aeromonas, Aerosphaera, Aggregatibacter, Albidovulum, Alicyclobacillus, Alishewanella, Alistipes, Alkalibacterium, Alkanindiges, Alloiococcus, Alloprevotella, Amnibacterium, Anaerobacillus, Anaerococcus, Anaeroglobus, Anaerosporobacter, Anaerostipes, Anoxybacillus, Aquabacterium, Arthrobacter, Arthrospira, Atopobium, Aurantimonas, Aureimonas, Bacillus, Bacteroides, Barnesiella, Bergeyella, Bifidobacterium, Bilophila, Blastococcus, Blautia, Bosea, Brachybacterium, Brachymonas, Brevibacterium, Brevundimonas, Brochothrix, Burkholderia, Campylobacter, Candidatus Protochlamydia, Candidatus Solibacter, Capnocytophaga, Cardiobacterium, Carnobacterium, Catenibacterium, Catonella, Caulobacter, Cellulomonas, Centipeda, Chelatococcus, Chroococcidiopsis, Chryseobacterium, Chthoniobacter, Citrobacter, Cloacibacterium, Clostridium, Collinsella, Comamonas, Conchiformibius, Cronobacter, Cryptobacterium, Curtobacterium, Curvibacter, Deinococcus, Delftia, Dermacoccus, Desulfovibrio, Dialister, Dielma, Dietzia, Dolosigranulum, Dorea, Dyadobacter, Eggerthella, Eisenbergiella, Empedobacter, Enterococcus, Epilithonimonas, Eremococcus, Erysipelatoclostridium, Exiguobacterium, Facklamia, Faecalibacterium, Ferruginibacter, Filifactor, Finegoldia, Flavisolibacter, Flavobacterium, Flavonifractor, Fretibacterium, Fusicatenibacter, Fusobacterium, Gallicola, Gardnerella, Georgenia, Granulicatella, Halomonas, Hespellia, Hydrogenophilus, Hymenobacter, Janibacter, Jeotgalicoccus, Jonquetella, Klebsiella, Kluyvera, Kocuria, Kytococcus, Lachnoanaerobaculum, Lachnospira, Lactobacillus, Lactococcus, Lautropia, Leptotrichia, Leuconostoc, Luteimonas, Lysinibacillus, Lysobacter, Macrococcus, Malassezia, Marvinbryantia, Massilia, Megasphaera, Meiothermus, Methanobrevibacter, Methylobacterium, Microbacterium, Micrococcus, Microlunatus, Microvirga, Mobiluncus, Modestobacter, Mogibacterium, Moraxella, Moryella, Murdochiella, Mycobacterium, Negativicoccus, Neisseria, Nitrosococcus, Nitrososphaera, Nocardia, Nocardioides, Novosphingobium, Odoribacter, Olsenella, Oribacterium, Ornithinimicrobium, Oscillibacter, Pantoea, Paraprevotella, Parasutterella, Parvimonas, Paucibacter, Pectobacterium, Pediococcus, Pedobacter, Pedomicrobium, Pelomonas, Peptoclostridium, Peptococcus, Peptoniphilus, Peptostreptococcus, Perlucidibaca, Phascolarctobacterium, Phenylobacterium, Phyllobacterium, Pirellula, Planctomyces, Planococcus, Planomicrobium, Porphyromonas, Prevotella, Propionibacterium, Propionimicrobium, Proteus, Pseudobutyrivibrio, Pseudoclavibacter, Pseudoflavonifractor, Pseudomonas, Pseudonocardia, Pseudorhodoferax, Pseudospirillum, Psychrobacter, Rahnella, Ralstonia, Raoultella, Rheinheimera, Rhizobium, Rhodobacter, Rhodococcus, Rhodopseudomonas, Romboutsia, Roseburia, Rothia, Rub ellimicrobium, Rubrobacter, Salana, Sarcina, Selenomonas, Senegalimassilia, Shinella, Shuttleworthia, Singulisphaera, Solirubrobacter, Solobacterium, Sphingobacterium, Sphingomonas, Sporosarcina, Staphylococcus, Stenotrophomonas, Stomatobaculum, Streptococcus, Streptomyces, Sutterella, Tannerella, Tepidimonas, Terrisporobacter, Tessaracoccus, Thalassospira, Thermomonas, Thiobacillus, Truepera, Turicibacter, Varibaculum, Variovorax, Veillonella, Victivallis, Weissella, Williamsia, Xenophilus, Yersinia
 24. The method of claim 12, wherein the first sleep-related condition comprises a bad sleep quality condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a nose site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Acidovorax sp. LR05, Acinetobacter baumannii, Acinetobacter calcoaceticus, Acinetobacter haemolyticus, Acinetobacter kyonggiensis, Acinetobacter sp. 2002-2301217, Acinetobacter sp. 423D, Acinetobacter sp. C-S-PDA7, Acinetobacter sp. C049, Acinetobacter sp. HD5.2, Acinetobacter sp. RBE2CD-114, Acinetobacter sp. RBE2CD-76, Acinetobacter sp. RE 51, Acinetobacter sp. STE, Acinetobacter sp. T133, Acinetobacter sp. WB22-23, Acinetobacter ursingii, Actinobacillus porcinus, Actinobaculum massiliense, Actinomyces europaeus, Actinomyces georgiae, Actinomyces gerencseriae, Actinomyces israelii, Actinomyces massiliensis, Actinomyces neuii, Actinomyces radingae, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S4-C9, Actinomyces sp. oral taxon 175, Actinomyces sp. oral taxon 448, Actinomyces sp. ph3, Actinomyces viscosus, Actinomycetospora sp. CAP 335, Aerococcus christensenii, Aerococcus sp. B43(2010), Aerococcus urinae, Aerococcus viridans, Aeromonas salmonicida, Aerosphaera taetra, Aggregatibacter aphrophilus, Aggregatibacter segnis, Akkermansia muciniphila, Albidovulum inexpectatum, Alishewanella sp. Mn5-6, Alistipes finegoldii, Alistipes inops, Alistipes putredinis, Alistipes shahii, Alistipes sp. EBA6-25c12, Alistipes sp. NML05A004, Alloiococcus otitis, Alloprevotellarava, Alloprevotella tannerae, Anaerobacillus alkalidiazotrophicus, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S8 F2, Anaerococcus tetradius, Anaerococcus vaginalis, Anaeroglobus geminatus, Anaerostipes sp. 5_1_63FAA, Anoxybacillus sp. HT14, Aquabacterium commune, Aquabacterium sp. Aqua2, Arthrobacter sp. T2-4, Arthrospira fusiformis, Atopobium minutum, Atopobium rimae, Atopobium sp. S3PFAA1-4, Atopobium sp. S4-A11a, Atopobium vaginae, Aureimonas altamirensis, Aureimonas phyllosphaerae, Bacillus cereus, Bacillus nanhaiisediminis, Bacillus niacini, Bacillus pseudofirmus, Bacillus sp. CBMAI 1158, Bacillus sp. DHT-33, Bacillus sp. T41, Bacteroides acidifaciens, Bacteroides caccae, Bacteroides coprocola, Bacteroides eggerthii, Bacteroides fragilis, Bacteroides massiliensis, Bacteroides ovatus, Bacteroides salyersiae, Bacteroides sp. 2_2_4, Bacteroides sp. 35AE37, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. D22, Bacteroides sp. EBA5-17, Bacteroides sp. SLC1-38, Bacteroides stercoris, Bacteroides thetaiotaomicron, Bacteroides uniformis, Bacteroides vulgatus, Barnesiella intestinihominis, Bergeyella sp. AF14, Bergeyella zoohelcum, Bibersteinia trehalosi, Bifidobacterium adolescentis, Bifidobacterium longum, Bifidobacterium stercoris, Bilophila sp. 4_1_300, Bilophila wadsworthia, Blastocatella fastidiosa, Blastococcus aggregatus, Blastococcus sp. 0705C6-3, Blastococcus sp. FXJ6.383, Blautia faecis, Blautia luti, Blautia sp. YHC-4, Blautia wexlerae, Bosea sp. BIWAKO-01, Bosea sp. R-46060, Brachybacterium muris, Brachybacterium sp. NIO-27, Brachybacterium sp. b110-100S, Brachymonas sp. canine oral taxon 015, Bradyrhizobium sp. 68A4SAPT, Bradyrhizobium sp. CCBAU 53380, Bradyrhizobium sp. P-45, Brevibacterium massiliense, Brevibacterium paucivorans, Brevibacterium pityocampae, Brevibacterium sp. A9C6, Brevibacterium sp. MBTD_CMFRI_Bro2, Brevundimonas diminuta, Brevundimonas sp. FXJ8.080, Brevundimonas sp. JW23.4a, Brevundimonas sp. V3M6, Brevundimonas subvibrioides, Burkholderia lata, Burkholderia sp. CBPB-HIM, Burkholderia sp. S32, Campylobacter concisus, Campylobacter gracilis, Campylobacter hominis, Campylobacter showae, Capnocytophaga genosp. AHN8471, Capnocytophaga gingivalis, Capnocytophaga ochracea, Capnocytophaga sp. AHN10044, Capnocytophaga sp. AHN9756, Capnocytophaga sp. CM59, Capnocytophaga sp. oral taxon 329, Capnocytophaga sp. oral taxon 338, Capnocytophaga sputigena, Cardiobacterium hominis, Catonella morbi, Centipeda periodontii, Chryseobacterium haifense, Chryseobacterium sp. BBCT14, Chryseobacterium sp. IIL-Nv8, Chryseobacterium sp. MH28, Chryseobacterium sp. Ro64, Chryseobacterium sp. YiD, Citrobacter sp. BW4, Cloacibacterium rupense, Clostridioides difficile, Collinsella aerofaciens, Comamonas sp. P-115, Comamonas sp. RV_A09_23b, Corynebacterium atypicum, Corynebacterium canis, Corynebacterium caspium, Corynebacterium diphtheriae, Corynebacterium durum, Corynebacterium epidermidicanis, Corynebacterium felinum, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium matruchotii, Corynebacterium sp., Corynebacterium sp. 2300500, Corynlebacterium sp. 713182/2012, Corynebacterium sp. NML 97-0186, Corynebacterium sp. jw37, Corynebacterium spheniscorum, Corynebacterium ulcerans, Cronobacter sakazakii, Cryobacterium psychrotolerans, Cryptobacterium curtum, Curvibacter gracilis, Cutibacterium acnes, Cutibacterium avidum, Cutibacterium granulosum, Deinococcus antarcticus, Deinococcus sp. 3B1, Deinococcus sp. UAC-77, Delftia lacustris, Delftia sp. BN-SKY3, Dermabacter hominis, Dermabacter sp. HFH0086, Dermacoccus nishinomiyaensis, Dermacoccus sp. D2.1, Dermacoccus sp. Ellin183, Dermacoccus sp. Ellin185, Dermacoccus sp. SST-20, Desulfovibrio sp., Dialister invisus, Dialister pneumosintes, Dialister propionicifaciens, Dialister sp. E2_20, Dialister sp. S7MSR5, Dolosigranulum pigrum, Dorea formicigenerans, Dorea longicatena, Effusibacillus pohliae, Eggerthella lenta, Eikenella corrodens, Eisenbergiella tayi, Enterobacter cloacae, Enterococcus sp. SI-4, Eremococcus coleocola, Exiguobacterium sibiricum, Exiguobacterium sp. icr3, Facklamia hominis, Facklamia languida, Facklamia sp. 164-92, Facklamia tabacinasalis, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Fastidiosipila sanguinis, Filifactor alocis, Finegoldia magna, Finegoldia sp. S9 AA1-5, Flavobacterium sp. EP372, Flavobacterium sp. bk_25, Fretibacterium fastidiosum, Frigoribacterium sp. 181, Fusicatenibacter saccharivorans, Fusobacterium equinum, Fusobacterium nucleatum, Fusobacterium periodonticum, Fusobacterium russii, Fusobacterium sp. ACB2, Fusobacterium sp. AS2, Fusobacterium sp. CM21, Fusobacterium sp. CM22, Gardnerella sp. S3PF20, Gardnerella vaginalis, Gemella morbillorum, Gemella sp. 933-88, Granulicatella adiacens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Halomonas pacifica, Herbaspirillum huttiense, Herbaspirillum seropedicae, Hydrogenophilus islandicus, Janibacter sp. IARI-RP17, Janibacter sp. M3-5, Jeotgalicoccus aerolatus, Johnsonella ignava, Jonquetella anthropi, Klebsiella oxytoca, Klebsiella pneumoniae, Kluyvera georgiana, Kocuria carniphila, Kocuria kristinae, Kocuria marina, Kocuria rhizophila, Kocuria sp. BRI 36, Kocuria sp. FXJ6.339, Kocuria sp. LW2-LEVI2-W, Lachnoanaerobaculum saburreum, Lachnospira pectinoschiza, Lactobacillus crispatus, Lactobacillus curvatus, Lactobacillus delbrueckii, Lactobacillus fornicalis, Lactobacillus gasseri, Lactobacillus jensenii, Lactobacillus paracasei, Lactobacillus plantarum, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. CR-609S, Lactobacillus sp. TAB-26, Lactobacillus vaginalis, Lactococcus lactis, Lactococcus sp. MH5-2, Lautropia sp. TeTO, Leptotrichia buccalis, Leptotrichia hongkongensis, Leptotrichia shahii, Leptotrichia sp. oral taxon 225, Leptotrichia wadei, Leucobacter aridicollis, Leucobacter sp. LR-2006b, Leuconostoc carnosum, Leuconostoc lactis, Leuconostoc mesenteroides, Luteimonas mephitis, Lysinibacillus sp. SJ2SN2, Lysinibacillus sphaericus, Macrococcus brunensis, Macrococcus caseolyticus, Malassezia restricta, Massilia oculi, Megasphaera sp. BV3C16-1, Megasphaera sp. UPII 199-6, Meiothermus silvanus, Mesorhizobium loti, Mesorhizobium sp. RE 62, Mesorhizobium sp. mat916, Methanobrevibacter smithii, Methylobacterium adhaesivum, Methylobacterium sp. CBMB45, Methylobacterium sp. CCGE4019, Methylobacterium sp. Gh-143, Methylobacterium sp. RK-2008-1, Microbacterium lacticum, Microbacterium sp. PcRB024, Microbacterium yannicii, Micrococcus luteus, Micrococcus sp. WB18-01, Microlunatus phosphovorus, Microvirga aerilata, Microvirga sp. BR10193, Microvirga sp. TSX10-2, Mobiluncus mulieris, Modestobacter multiseptatus, Mogibacterium pumilum, Moraxella catarrhalis, Moraxella lincolnii, Moraxella nonliquefaciens, Moraxella sp. BBN2P-02d, Moraxella sp. WB19-16, Murdochiella sp. S9 PR-10, Mycobacterium chelonae, Mycobacterium sp. KNUC297, Mycobacterium sp. UNC410CL29Cvi84, Negativicoccus succinicivorans, Neisseria canis, Neisseria elongata, Neisseria flavescens, Neisseria macacae, Neisseria meningitidis, Neisseria mucosa, Neisseria oralis, Neisseria shayeganii, Neisseria skkuensis, Neisseria sp. CCUG 45853, Nocardioides mesophilus, Novosphingobium sediminicola, Novosphingobium sp. THA_AIK7, Ochrobactrum sp. FPY8, Ochrobactrum sp. SCTS14, Ochrobactrum tritici, Olsenella sp. F0004, Oribacterium sp. CM12, Oribacterium sp. oral taxon 078, Ornithinimicrobium sp. TH G-GM43, Ornithinimicrobium sp. XiC, Pantoea agglomerans, Pantoea gaviniae, Parabacteroides distasonis, Parabacteroides goldsteinii, Paraprevotella clara, Parasutterella excrementihominis, Parvimonas micra, Paucibacter toxinivorans, Pectobacterium carotovorum, Pedomicrobium ferrugineum, Pelomonas aquatica, Peptococcus niger, Peptococcus sp. oral taxon 168, Peptoniphilus coxii, Peptoniphilus duerdenii, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptonliphilus sp. 7-2, Peptoniphilus sp. DNF00840, Peptoniphilus sp. JCM 8143, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. gpac148, Peptoniphilus sp. oral taxon 836, Peptostreptococcus anaerobius, Peptostreptococcus stomatis, Phascolarctobacterium faecium, Photobacterium sp. squidInt_04, Phyllobacterium sp. T50, Planococcus sp. ljh-25, Porphyrobacter sp. NMC22, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas cangingivalis, Porphyromonas canoris, Porphyromonas catoniae, Porphyromonas endodontalis, Porphyromonas sp. 2026, Porphyromonas uenonis, Prevotella bivia, Prevotella buccalis, Prevotella disiens, Prevotella intermedia, Prevotella micans, Prevotella nanceiensis, Prevotella nigrescens, Prevotella oris, Prevotella oulorum, Prevotella pallens, Prevotella sp. S4-10, Prevotella sp. WAL 2039G, Propionibacterium sp. KPL1844, Propionibacterium sp. KPL2005, Propionibacterium sp. MSPo9A, Propionibacterium sp. V07/12348, Propionimicrobium lymphophilum, Pseudoclavibacter bifida, Pseudoclavibacter sp. Timone, Pseudoflavonifractor capillosus, Pseudomonas aeruginosa, Pseudomonas agarici, Pseudomonas brenneri, Pseudomonas citronellolis, Pseudomonas graminis, Pseudomonas monteilii, Pseudomonas sp. BM5, Pseudomonas sp. CBMVAI 1177, Pseudomonas sp. G1116, Pseudomonas sp. GmFRB023, Pseudomonas sp. KB23, Pseudomonas sp. KNUC378, Pseudomonas sp. PDD-31b-4, Pseudomonas sp. PKG89, Pseudomonas sp. PcFRB100, Pseudomonas sp. PcFRB119, Pseudomonas sp. a101-18-2, Pseudomonas syringae, Pseudonocardia sp. CC981102-15, Pseudopropionibacterium propionicum, Rahnella sp. BSPi8, Ralstonia pickettii, Ralstonia sp. A52, Ralstonia sp. CCUG 46389, Ralstonia sp. S2.MAC.005, Raoultella ornithinolytica, Rhizobium etli, Rhizobium sp. 10II, Rhizobium sp. T45, Rhizobium sp. sc-w, Rhodobacter capsulatus, Rhodococcus erythropolis, Rhodococcus sp. C056, Rhodopseudomonas boonkerdii, Rhodopseudomonas thermotolerans, Rodentibacter pneumotropicus, Roseburia faecis, Roseburia intestinalis, Roseburia inulinivorans, Roseburia sp. 11SE39, Rothia aeria, Rothia dentocariosa, Rothia mucilaginosa, Rothia sp. CCUG 25688, Rothia sp. THG-N7, Salana multivorans, Selenomonas genomosp. P5, Shewanella sp. 8113, Shinella sp. DR33, Solobacterium moorei, Sphingobacterium mizutaii, Sphingobium sp. LC341, Sphingobium sp. MH60, Sphingomonas aerolata, Sphingomonas aquatilis, Sphingomonas dokdonensis, Sphingomonas oligophenolica, Sphingomonas paucimobilis, Sphingomonas sp. 24T, Sphingomonas sp. 540, Sphingomonas sp. CS81, Sphingomonas sp. PDD-26b-16, Staphylococcus aureus, Staphylococcus epidermidis, Staphylococcus equorum, Staphylococcus saprophyticus, Staphylococcus simulans, Staphylococcus sp. 155b, Staphylococcus sp. 334802, Staphylococcus sp. 335602, Staphylococcus sp. C-D-MA2, Staphylococcus sp. C912, Staphylococcus sp. L10, Staphylococcus sp. WB18-16, Staphylococcus vitulinus, Stenotrophomonas sp. C-S-TSA3, Stenotrophomonas sp. I_63-LFPIA9B1, Stenotrophomonas sp. KITS-1, Stenotrophomonas sp. No17, Stenotrophomonas sp. TV49May, Stenotrophomonas sp. Z2-S2, Streptococcus dysgalactiae, Streptococcus gordonii, Streptococcus mutans, Streptococcus parasanguinis, Streptococcus pneumoniae, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Ileo_MS_A10, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. BS35a, Streptococcus sp. GMD6S, Streptococcus sp. oral taxon G59, Streptococcus sp. oral taxon G63, Streptococcus thermophilus, Sutterella stereo ricanis, Tannerella forsythia, Tannerella sp. oral taxon HOT-286, Tepidimonas sp. AK30, Terrisporobacter glycolicus, Tessaracoccus lapidicaptus, Tessaracoccus sp. SL014B-79A, Thermomonas brevis, Thermus sp., Turicibacter sanguinis, Varibaculum cambriense, Varibaculum sp. CCUG 45114, Variovorax sp. IMER-B2-7, Variovorax sp. MM43Nov, Veillonella montpellierensis, Veillonella rogosae, Veillonella seminalis, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. AS16, Veillonella sp. CM60, Veillonella sp. MSA12, Veillonella sp. oral taxon 780, Weissella confusa, Weissella hellenica, Xanthomonas campestris, Yersinia enterocolitica, Abiotrophia, Acetitomaculum, Achromobacter, Acidiphilium, Acidovorax, Acinetobacter, Actinobacillus, Actinobaculum, Actinomyces, Actinomycetospora, Adhaeribacter, Aerococcus, Aeromicrobium, Aeromonas, Aerosphaera, Aggregatibacter, Albidovulum, Alicyclobacillus, Alishewanella, Alistipes, Alkalibacterium, Alkanindiges, Alloiococcus, Alloprevotella, Amnibacterium, Anaerobacillus, Anaerococcus, Anaeroglobus, Anaerosporobacter, Anaerostipes, Anoxybacillus, Aquabacterium, Arthrobacter, Arthrospira, Atopobium, Aurantimonas, Aureimonas, Bacillus, Bacteroides, Barnesiella, Bergeyella, Bifidobacterium, Bilophila, Blastococcus, Blautia, Bosea, Brachybacterium, Brachymonas, Brevibacterium, Brevundimonas, Brochothrix, Burkholderia, Campylobacter, Candidatus Protochlamydia, Candidatus Solibacter, Capnocytophaga, Cardiobacterium, Carnobacterium, Catenibacterium, Catonella, Caulobacter, Cellulomonas, Centipeda, Chelatococcus, Chroococcidiopsis, Chryseobacterium, Chthoniobacter, Citrobacter, Cloacibacterium, Clostridium, Collinsella, Comamonas, Conchiformibius, Cronobacter, Cryptobacterium, Curtobacterium, Curvibacter, Deinococcus, Deiftia, Dermacoccus, Desulfovibrio, Dialister, Dielma, Dietzia, Dolosigranulum, Dorea, Dyadobacter, Eggerthella, Eisenbergiella, Empedobacter, Enterococcus, Epilithonimonas, Eremococcus, Erysipelatoclostridium, Exiguobacterium, Facklamia, Faecalibacterium, Ferruginibacter, Filifactor, Finegoldia, Flavisolibacter, Flavobacterium, Flavonifractor, Fretibacterium, Fusicatenibacter, Fusobacterium, Gallicola, Gardnerella, Georgenia, Granulicatella, Halomonas, Hespellia, Hydrogenophilus, Hymenobacter, Janibacter, Jeotgalicoccus, Jonquetella, Kiebsiella, Kluyvera, Kocuria, Kytococcus, Lachnoanaerobaculum, Lachnospira, Lactobacillus, Lactococcus, Lautropia, Leptotrichia, Leuconostoc, Luteimonas, Lysinibacillus, Lysobacter, Macrococcus, Malassezia, Marvinbryantia, Massilia, Megasphaera, Meiothermus, Methanobrevibacter, Methylobacterium, Microbacterium, Micrococcus, Microlunatus, Microvirga, Mobiluncus, Modestobacter, Mogibacterium, Moraxella, Moryella, Murdochiella, Mycobacterium, Negativicoccus, Neisseria, Nitrosococcus, Nitrososphaera, Nocardia, Nocardioides, Novosphingobium, Odoribacter, Olsenella, Oribacterium, Ornithinimicrobium, Oscillibacter, Pantoea, Paraprevotella, Parasutterella, Parvimonas, Paucibacter, Pectobacterium, Pediococcus, Pedobacter, Pedomicrobium, Pelomonas, Peptoclostridium, Peptococcus, Peptoniphilus, Peptostreptococcus, Perlucidibaca, Phascolarctobacterium, Phenylobacterium, Phyllobacterium, Pirellula, Planctomyces, Planococcus, Planomicrobium, Porphyromonas, Prevotella, Propionibacterium, Propionimicrobium, Proteus, Pseudobutyrivibrio, Pseudoclavibacter, Pseudoflavonifractor, Pseudomonas, Pseudonocardia, Pseudorhodoferax, Pseudospirillum, Psychrobacter, Rahnella, Raistonia, Raoultella, Rheinheimera, Rhizobium, Rhodobacter, Rhodococcus, Rhodopseudomonas, Romboutsia, Roseburia, Rothia, Rubellimicrobium, Rubrobacter, Salana, Sarcina, Selenomonas, Senegalimassilia, Shinella, Shuttleworthia, Singulisphaera, Solirubrobacter, Solobacterium, Sphingobacterium, Sphingomonas, Sporosarcina, Staphylococcus, Stenotrophomonas, Stomatobaculum, Streptococcus, Streptomyces, Sutterella, Tannerella, Tepidimonas, Terrisporobacter, Tessaracoccus, Thalassospira, Thermomonas, Thiobacillus, Truepera, Turicibacter, Varibaculum, Variovorax, Veillonella, Victivallis, Weissella, Williamsia, Xenophilus, Yersinia
 25. The method of claim 12, wherein the first sleep-related condition comprises a bad sleep quality condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a skin site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Acinetobacter baumannii, Acinetobacter radioresistens, Acinetobacter sp. 423D, Acinetobacter sp. C-S-NA3, Acinetobacter sp. C-S-PDA7, Acinetobacter sp. HD5.2, Acinetobacter sp. RBE2CD-114, Acinetobacter sp. RBE2CD-76, Acinetobacter sp. S2(2009), Acinetobacter sp. T133, Acinetobacter ursingii, Actinobacillus porcinus, Actinomyces dentalis, Actinomyces georgiae, Actinomyces gerencseriae, Actinomyces graevenitzii, Actinomyces massiliensis, Actinomyces odontolyticus, Actinomyces radingae, Actinomyces sp. ICM41, Actinomyces sp. ICM54, Actinomyces sp. S4-C9, Actinomyces sp. canine oral taxon 374, Actinomyces sp. oral taxon 175, Actinomyces sp. ph3, Actinoplanes auranticolor, Aeromonas salmonicida, Aeromonas sp. B11, Aerosphaera taetra, Aggregatibacter aphrophilus, Aggregatibacter segnis, Akkermansia muciniphila, Albidovulum inexpectatum, Alistipes finegoldii, Alistipes shahii, Alistipes sp. EBA6-25c12, Alistipes sp. NML05A004, Alkanindiges illinoisensis, Alloiococcus otitis, Alloprevotella rava, Anaerobacillus alkalidiazotrophicus, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus prevotii, Anaerococcus provencensis, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. S8 F2, Anaerococcus tetradius, Anaerococcus vaginalis, Anaerostipes hadrus, Anoxybacillus sp. HT14, Aquabacterium sp. Aqua2, Aquamicrobium lusatiense, Aquaspirillum sp. canine oral taxon 091, Arthrobacter sp. LM27(2011), Arthrobacter sp. NIO-1057, Atopobium sp. S3MV24, Aureimonas phyllosphaerae, Bacillus cereus, Bacillus flexus, Bacillus pocheonensis, Bacillus pseudofirmus, Bacillus safensis, Bacillus sp. CBMAI 1158, Bacillus sp. T41, Bacteroides caccae, Bacteroides clarus, Bacteroides coprocola, Bacteroides eggerthii, Bacteroides finegoldii, Bacteroides fragilis, Bacteroides massiliensis, Bacteroides nordii, Bacteroides ovatus, Bacteroides plebeius, Bacteroides sp. 2_2_4, Bacteroides sp. 35AE37, Bacteroides sp. AR20, Bacteroides sp. D22, Bacteroides sp. DJF_B097, Bacteroides sp. EBA5-17, Bacteroides sp. J1511, Bacteroides sp. XB12B, Bacteroides sp. XB44A, Bacteroides sp. canine oral taxon 040, Bacteroides stercoris, Bacteroides thetaiotaomicron, Bacteroides uniformis, Bacteroides vulgatus, Barnesiella intestinihominis, Bergeyella sp. h1971d, Bibersteinia trehalosi, Bifidobacterium animalis, Bifidobacterium longum, Bilophila sp. 4_130, Blastococcus sp. FXJ6.383, Blautia faecis, Blautia luti, Blautia sp. YHC-4, Blautia stercoris, Blautia wexlerae, Bosea sp. B0.09-49, Bosea sp. BIWAKO-01, Bosea sp. R-46060, Brachybacterium faecium, Brachybacterium sp. NIO-27, Bradyrhizobium sp. CCBAU 53380, Brevibacterium pityocampae, Brevibacterium sp. A9C6, Brevibacterium sp. MBTD_CMFRI_Bro2, Brevundimonas diminuta, Brevundimonas sp. JW23.4a, Brevundimonas sp. V3M6, Brevundimonas sp. ao0l-4, Brevundimonas subvibrioides, Brochothrix sp. MVP25, Burkholderia sp. S32, Butyricimonas virosa, Campylobacter gracilis, Campylobacter ureolyticus, Capnocytophaga canimorsus, Capnocytophaga genosp. AHN8471, Capnocytophaga gingivalis, Capnocytophaga granulosa, Capnocytophaga ochracea, Capnocytophaga sp. oral taxon 338, Catonella morbi, Caulobacter sp., Cellulomonas denverensis, Cellulosimicrobium cellulans, Cellulosimicrobium sp. 143-1, Centipeda periodontii, Chryseobacterium haifense, Chryseobacterium sp. MCio-6, Chryseobacterium sp. R31, Chryseobacterium sp. Y1D, Chryseobacterium sp. bk_9, Chryseobacterium sp. sptzw36, Chryseomicrobium imtechense, Citrobacter sp. BW4, Cloacibacterium rupense, Clostridioides difficile, Collinsella aerofaciens, Collinsella intestinalis, Comamonas jiangduensis, Comamonas sp. HM_AF10, Comamonas sp. RV_F08_22d, Conchiformibius steedae, Corynebacterium argentoratense, Corynebacterium atypicum, Corynebacterium canis, Corynebacterium capitovis, Corynebacterium ciconiae, Corynebacterium diphtheriae, Corynebacterium durum, Corynebacterium epidermidicanis, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium sp. 713182/2012, Corynebacterium sp. NML 97-0186, Corynebacterium sp. jw37, Corynebacterium spheniscorum, Corynebacterium ulcerans, Curvibacter gracilis, Cutibacterium acnes, Cutibacterium avidum, Cutibacterium granulosum, Deinococcus antarcticus, Deinococcus sp. MN4-8, Delftia lacustris, Delftia sp. BN-SKY3, Dermabacter hominis, Dermacoccus nishinomiyaensis, Dermacoccus sp. Ellin185, Dermacoccus sp. SST-20, Desulfovibrio piger, Dialister invisus, Dialister micraerophilus, Dialister propionicifaciens, Dialister sp. S7MS R5, Dialister succinatiphilus, Dietzia cinnamea, Dietzia lutea, Dietzia sp. ISA13, Dolosigranulum pigrum, Duganella sp. SB, Eisenbergiella tayi, Elizabethkingia meningoseptica, Empedobacter falsenii, Enterobacter cloacae, Enterococcus sp. C6I11, Enterococcus sp. SI-4, Erythrobacter sp. DHXJ15, Exiguobacterium sp. IT2, Exiguobacterium sp. Sh3, Exiguobacterium sp. YS1, Exiguobacterium sp. icr3, Facklamia languida, Faecalibacterium prausnitzii, Filifactor villosus, Finegoldia magna, Finegoldia sp. BV3C29, Finegoldia sp. S8 F7, Finegoldia sp. S9 AA1-5, Flavobacterium ceti, Flavobacterium sp. CS43, Flavonifractor plautii, Friedmanniella sp. Ellin171, Friedmanniella spumicola, Frigoribacterium sp. PDD-31b-8, Fusicatenibacter saccharivorans, Fusobacterium nucleatum, Fusobacterium periodonticum, Gardnerella vaginalis, Gemella morbillorum, Gemella sp. 933-88, Geobacillus stearothermophilus, Gordonia sputi, Gordonia terrae, Gordonibacter pamelaeae, Granulicatella adiacens, Granulicatella elegans, Haematobacter massiliensis, Haemophilus parainfluenzae, Halomonas pacifica, Herbaspirillum huttiense, Herbaspirillum seropedicae, Hymenobacter sp. MIC2056, Janibacter sp. IARI-RP17, Jeotgalicoccus aerolatus, Jeotgalicoccus nanhaiensis, Jeotgalicoccus sp. AD9, Kingella oralis, Klebsiella pneumoniae, Klebsiella sp. B12, Kluyvera georgiana, Knoellia sp. BA3(2011), Knoellia sp. Zs20, Kocuria kristinae, Kocuria rhizophila, Kocuria sp. FXJ6.339, Kytococcus sp. YB227, Lachnoanaerobaculum saburreum, Lachnoanaerobaculum sp. OBRC5-5, Lachnospira pectinoschiza, Lactobacillus crispatus, Lactobacillus curvatus, Lactobacillus delbrueckii, Lactobacillus fornicalis, Lactobacillus iners, Lactobacillus jensenii, Lactobacillus plantarum, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. BL302, Lactobacillus sp. CR-609S, Lactobacillus sp. TAB-22, Lactococcus sp. MH5-2, Lactonifactor longoviformis, Lautropia sp. TeTO, Leifsonia psychrotolerans, Leptotrichia buccalis, Leptotrichia goodfellowii, Leptotrichia hongkongensis, Leptotrichia shahii, Leptotrichia sp. PTE15, Leptotrichia sp. oral taxon 225, Leptotrichia trevisanii, Leptotrichia wadei, Leuconostoc inhae, Leuconostoc lactis, Luteimonas aestuarii, Lysinibacillus sp. SJ2SN2, Lysinibacillus sphaericus, Malassezia restricta, Marmoricola aurantiacus, Massilia sp. MA5-1, Massilia sp. hp37, Megamonas funiformis, Megasphaera genomosp. C1, Mesorhizobium loti, Mesorhizobium sp. RE 62, Mesorhizobium sp. mat916, Methanobrevibacter smithii, Methylobacterium sp. AMS64, Methylobacterium sp. CBMB45, Methylobacterium sp. PB142, Methylobacterium sp. PDD-23b-14, Methylobacterium sp. RK-2008-1, Microbacterium lacticum, Microbacterium lacus, Microbacterium oxydans, Microbacterium sp. PcRBo24, Microbacterium sp. absalar, Microbacterium yannicii, Micrococcus luteus, Micrococcus sp. M12-2-2, Micrococcus sp. WB18-01, Microlunatus aurantiacus, Mobiluncus curtisii, Mobiluncus mulieris, Modestobacter multiseptatus, Modestobacter sp. R-36506, Mogibacterium pumilum, Moraxella nonliquefaciens, Moraxella sp., Moraxella sp. 1967, Moraxella sp. 26, Moraxella sp. BBN2P-02d, Moraxella sp. WB19-16, Moryella indoligenes, Murdochiella sp. S9 PR-10, Mycobacterium sp. 18 GUW, Mycobacterium sp. KNUC297, Negativicoccus sp. S5-A15, Negativicoccus succinicivorans, Neisseria elongata, Neisseria macacae, Neisseria mucosa, Neisseria oralis, Neisseria sicca, Neisseria wadsworthii, Nocardioides daphniae, Nocardioides ginsengagri, Nocardioides mesophilus, Nocardioides sp. BA32(2011), Novosphingobium panipatense, Novosphingobium sediminicola, Novosphingobium sp. iMX1, Nubsella zeaxanthinifaciens, Ochrobactrum sp. LC498, Ochrobactrum sp. SCTS14, Ochrobactrum tritici, Odoribacter splanchnicus, Oerskovia sp. Tibet-YD4604-5, Oribacterium sp. CM12, Oribacterium sp. oral taxon 078, Ornithinimicrobium sp. L5, Pantoea agglomerans, Parabacteroides merdae, Paraprevotella clara, Parasutterella excrementihominis, Parvimonas micra, Pasteurella multocida, Paucibacter sp. 186, Paucibacter toxinivorans, Pedobacter sp. DL5, Pedomicrobium ferrugineum, Peptococcus sp. S9 Pr-12, Peptococcus sp. canine oral taxon 344, Peptococcus sp. oral taxon i68, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. gpac148, Peptoniphilus sp. oral taxon 375, Peptostreptococcus anaerobius, Phascolarctobacterium faecium, Photobacterium sp. CAIM 866, Photobacterium sp. squidInt_04, Phyllobacterium sp. T50, Phyllobacterium trifolii, Planomicrobium alkanoclasticum, Planomicrobium sp. TPD46, Polaromonas aquatica, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas cangingivalis, Porphyromonas canoris, Porphyromonas catoniae, Porphyromonas crevioricanis, Porphyromonas endodontalis, Porphyromonas sp. 2024b, Porphyromonas uenonis, Prevotella bivia, Prevotella buccalis, Prevotella intermedia, Prevotella maculosa, Prevotella nanceiensis, Prevotella nigrescens, Prevotella oris, Prevotella oulorum, Prevotella pallens, Prevotella timonensis, Propionibacterium sp. KPL1844, Propionibacterium sp. KPL2005, Propionibacterium sp. MSPo9A, Propionibacterium sp. V07/12348, Pseudoclavibacter bifida, Pseudoclavibacter sp. Timone, Pseudoflavonifractor capillosus, Pseudomonas aeruginosa, Pseudomonas baetica, Pseudomonas brenneri, Pseudomonas citronellolis, Pseudomonas fluorescens, Pseudomonas monteilii, Pseudomonas sp. CBMVAI 1177, Pseudomonas sp. DQ-01, Pseudomonas sp. G1116, Pseudomonas sp. GmFRB023, Pseudomonas sp. KNUC378, Pseudomonas sp. KVS86, Pseudomonas sp. PDD-31b-4, Pseudomonas sp. PKG89, Pseudomonas sp. PcFRBo68, Pseudomonas sp. PcFRB100, Pseudomonas sp. StFRB280, Pseudomonas sp. a101-18-2, Pseudoxanthomonas japonensis, Psychrobacter sanguinis, Psychrobacter sp. b110-1, Rahnella sp. FB303, Ralstonia pickettii, Ralstonia sp. A52, Ralstonia sp. CCUG 46389, Ralstonia sp. S2.MAC.005, Rheinheimera sp. G3DM-27, Rhizobium etli, Rhizobium skierniewicense, Rhizobium sp. 10II, Rhizobium sp. T45, Rhodococcus erythropolis, Rhodococcus sp. CO56, Rhodococcus sp. MARGlo, Rhodococcus sp. PDD-31b-7, Rhodococcus sp. p52, Rhodopseudomonas boonkerdii, Roseburia inulinivorans, Roseburia sp. 11SE39, Roseomonas cervicalis, Rothia dentocariosa, Rothia sp. CCUG 25688, Rothia sp. THG-N7, Salinibacterium sp. MDT1-9-1, Selenomonas genomosp. P5, Serratia nematodiphila, Shewanella sp. 8113, Shinella sp. DR33, Simonsiella muelleri, Skermanella aerolata, Solobacterium moorei, Sphingobacterium sp. HTc4-a, Sphingobacterium sp. TB1, Sphingobium yanoikuyae, Sphingomonas aquatilis, Sphingomonas oligophenolica, Sphingomonas sp. 24T, Sphingomonas sp. 540, Sphingomonas sp. CS81, Sphingomonas sp. KOPRI 25661, Sphingomonas sp. PDD-26b-16, Sphingomonas sp. Z1-YC6841, Sphingomonas yunnanensis, Spirosoma rigui, Staphylococcus aureus, Staphylococcus epidermidis, Staphylococcus equorum, Staphylococcus simulans, Staphylococcus sp. 334802, Staphylococcus sp. 335602, Staphylococcus sp. C-D-MA2, Staphylococcus sp. C5116, Staphylococcus sp. C912, Staphylococcus sp. WB18-16, Stenotrophomonas pavanii, Stenotrophomonas sp. C-S-TSA3, Stenotrophomonas sp. I_63-LFP1A9B1, Stenotrophomonas sp. KITS-1, Stenotrophomonas sp. PDD-33b-8, Stenotrophomonas sp. Z2-S2, Stomatobaculum longum, Streptococcus dysgalactiae, Streptococcus mutans, Streptococcus parasanguinis, Streptococcus pyogenes, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. BS35a, Streptococcus sp. GMD6S, Streptococcus sp. S16-11, Streptococcus sp. canine oral taxon 279, Streptococcus sp. oral taxon G59, Streptococcus thermophilus, Subdoligranulum variabile, Sutterella sp. 252, Sutterella stercoricanis, Tannerella forsythia, Tannerella sp. oral taxon HOT-286, Terrisporobacter glycolicus, Tessaracoccus lapidicaptus, Turicella otitidis, Varibaculum cambriense, Varibaculum sp. CCUG 45114, Varibaculum sp. CCUG 61255, Variovorax sp. IMER-B2-7, Variovorax sp. MM43Nov, Veillonella atypica, Veillonella parvula, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. AS16, Veillonella sp. CM60, Veillonella sp. MSA12, Veillonella sp. oral taxon 780, Xanthomonas campestris, Xanthomonas gardneri, Abiotrophia, Acetitomaculum, Achromobacter, Acidaminococcus, Acidiphilium, Acidovorax, Acinetobacter, Actinobacillus, Actinomadura, Actinomyces, Aero coccus, Aeromonas, Aerosphaera, Aggregatibacter, Agromyces, Akkermansia, Albidovulum, Alicyclobacillus, Alkanindiges, Alloprevotella, Altererythrob acter, Amaricoccus, Amnibacterium, Anaerob acillus, Anaerococcus, Anaerosporobacter, Anaerostipes, Anoxybacillus, Aquabacterium, Aquamicrobium, Aquaspirillum, Arthrobacter, Atopobium, Aurantimonas, Aureimonas, Azospira, Bacillus, Bacteroides, Barnesiella, Belnapia, Bergeyella, Bifidobacterium, Bilophila, Blastocatella, Blautia, Bosea, Brachybacterium, Bradyrhizobium, Brevibacterium, Brevundimonas, Brochothrix, Burkholderia, Butyrivibrio, Campylobacter, Candidatus Alysiosphaera, Candidatus Saccharimonas, Candidatus Stoquefichus, Candidatus Xiphinematobacter, Capnocytophaga, Catonella, Caulobacter, Cellulomonas, Cellulosimicr obium, Centipeda, Chitinophaga, Chryseobacterium, Chryseomicrobium, Chthoniobacter, Citrobacter, Cloacibacterium, Clostridium, Comamonas, Conchiformibius, Corynebacterium, Craurococcus, Cupriavidus, Curvibacter, Cutibacterium, Defluviimonas, Deinococcus, Delftia, Dermacoccus, Desulfovibrio, Devosia, Dietzia, Dolosigranulum, Duganella, Eggerthella, Eisenbergiella, Elizabethkingia, Enterobacter, Enterococcus, Enterorhabdus, Erysipelatoclostridium, Erythrobacter, Euzebya, Exiguobacterium, Facklamia, Faecalibacterium, Ferruginibacter, Filifactor, Finegoldia, Flavisolibacter, Flavobacterium, Fretibacterium, Friedmanniella, Frigoribacterium, Fusibacter, Fusicatenibacter, Fusobacterium, Gallicola, Gardnerella, Gemella, Geobacillus, Gordonia, Granulicatella, Granulicella, Haematobacter, Halomonas, Herbaspirillum, Hespellia, Holdemania, Hymenobacter, Iamia, Intestinibacter, Intestinimonas, Janibacter, Jatrophihabitans, Jeotgalicoccus, Johnsonella, Kineosporia, Kingella, Klebsiella, Kluyvera, Knoellia, Kocuria, Kytococcus, Lachnoanaerobaculum, Lactobacillus, Lactococcus, Lactonifactor, Lautropia, Leifsonia, Leptotrichia, Leuconostoc, Luteimonas, Luteococcus, Lysinibacillus, Lysobacter, Malassezia, Marmoricola, Marvinbryantia, Massilia, Megamonas, Megasphaera, Mesorhizobium, Methanobrevibacter, Methylobacterium, Microbacterium, Micrococcus, Microvirga, Mobiluncus, Modestobacter, Mogibacterium, Moraxella, Murdochiella, Mycobacterium, Mycoplasma, Nakamurella, Negativicoccus, Neisseria, Nesterenkonia, Nitrososphaera, Nocardioides, Novosphingobium, Nubsella, Ochrobactrum, Odoribacter, Oerskovia, Oribacterium, Ornithinimicrobium, Oscillibacter, Oscillospira, Paenibacillus, Pantoea, Papillibacter, Paraprevotella, Parasutterella, Parvimonas, Pasteurella, Patulibacter, Pedobacter, Pedomicrobium, Peptoclostridium, Peptococcus, Peptoniphilus, Peptostreptococcus, Phascolarctobacterium, Phenylobacterium, Photobacterium, Phyllobacterium, Planococcus, Planomicrobium, Polaromonas, Porphyromonas, Prevotella, Propionibacterium, Propionimicrobium, Pseudoclavibacter, Pseudoflavonifractor, Pseudolabrys, Pseudomonas, Pseudonocardia, Pseudorhodoferax, Pseudoxanthomonas, Psychrobacter, Rahnella, Raistonia, Rhizobium, Rhodobacter, Rhodococcus, Rhodoplanes, Rhodopseudomonas, Robinsoniella, Roseburia, Roseomonas, Rubellimicrobium, Rummeliibacillus, Saccharibacillus, Salinibacterium, Sarcina, Serinicoccus, Shewanella, Shuttleworthia, Simonsiella, Singulisphaera, Skermanella, Solirubrobacter, Solobacterium, Sorangium, Sphingobacterium, Sphingobium, Sphingomonas, Spirosoma, Staphylococcus, Stenotrophomonas, Stomatobaculum, Streptococcus, Streptomyces, Subdoligranulum, Sutterella, Tannerella, Terrisporobacter, Tessaracoccus, Thalassospira, Turicella, Vagococcus, Varibaculum, Veillnella, Virgibacillus, Wautersiella, Weissella, Zymomonas
 26. The method of claim 12, wherein the first sleep-related condition comprises a shift work condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a genital site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Actinobaculum massiliense, Actinomyces europaeus, Actinomyces hongkongensis, Actinomyces neuii, Actinomyces odontolyticus, Actinomyces sp. 2002-2301122, Actinomyces sp. ICM58, Actinomyces sp. S4-C9, Actinomyces sp. S9 PR-21, Actinomyces turicensis, Actinotignum schaalii, Aerococcus christensenii, Aerococcus sanguinicola, Aerococcus urinae, Aerosphaera taetra, Akkermansia muciniphila, Alloscardovia omnicolens, Anaerobacillus alkalidiazotrophicus, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus prevotii, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S9 PR-16, Anaerococcus sp. S9 PR-5, Anaerococcus vaginalis, Anaeroglobus geminatus, Arcanobacterium haemolyticum, Arcanobacterium sp. NML 06501, Atopobium deltae, Atopobium sp. F0209, Atopobium sp. MVA9, Atopobium sp. S3MV24, Atopobium sp. S4-A11a, Atopobium vaginae, Bacillus pseudofirmus, Bacillus sp. T41, Bacteroides caccae, Bacteroides massiliensis, Bacteroides sp. AR20, Bacteroides sp. D22, Bacteroides thetaiotaomicron, Bacteroides vulgatus, Bifidobacterium bifidum, Bifidobacterium breve, Bifidobacterium choerinum, Bifidobacterium gallicum, Bifidobacterium longum, Bifidobacterium sp. 120, Blautia luti, Bosea sp. BIWAKO-01, Bosea sp. R-460600, Bradyrhizobium sp. CCBAU 53380, Brevibacterium massiliense, Brevibacterium paucivorans, Brevibacterium ravenspurgense, Brevibacterium sp. 10-1, Bulleidia extructa, Campylobacter hominis, Campylobacter ureolyticus, Citrobacter sp. BW4, Collinsella aerofaciens, Corynebacterium canis, Corynebacterium epidermidicanis, Corynebacterium frankenforstense, Corynebacterium freiburgense, Corynebacterium sp., Corynebacterium sp. 713182/2012, Corynebacterium sp. NML96-oo85, Corynebacterium sp. jw37, Corynebacterium spheniscorum, Curvibacter gracilis, Cutibacterium acnes, Delftia lacustris, Delftia sp. BN-SKY3, Dialister micraerophilus, Dialister propionicifaciens, Dialister sp. E2_20, Dialister sp. S4-23, Dialister sp. S7MSR5, Dialister succinatiphilus, Enterococcus faecalis, Enterococcus sp. SI-4, Facklamia hominis, Facklamia languida, Facklamia sp. 1440-97, Facklamia sp. 164-92, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Fastidiosipila sanguinis, Finegoldia magna, Finegoldia sp. S3MVA9, Finegoldia sp. S5-A7, Finegoldia sp. S8 F7, Finegoldia sp. S9 AA1-5, Fusicatenibacter saccharivorans, Fusobacterium sp. ACB2, Fusobacterium sp. CM21, Gardnerella sp. S3PF20, Gardnerella vaginalis, Gemella morbillorum, Globicatella sanguinis, Globicatella sulfidifaciens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Helcococcus seattlensis, Helcococcus sueciensis, Herbaspirillum huttiense, Herbaspirillum seropedicae, Jonquetella sp. BV3C4, Kluyvera georgiana, Lactobacillus acidophilus, Lactobacillus coleohominis, Lactobacillus crispatus, Lactobacillus fornicalis, Lactobacillus gasseri, Lactobacillus iners, Lactobacillus jensenii, Lactobacillus johnsonii, Lactobacillus reuteri, Lactobacillus rhamnosus, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. B164, Lactobacillus sp. BL302, Lactobacillus sp. BL304, Lactobacillus sp. C30An8, Lactobacillus sp. CR-609S, Lactobacillus sp. MYMRS/TEN2, Lactobacillus taiwanensis, Lactobacillus vaginalis, Leptotrichia hongkongensis, Lysinibacillus sphaericus, Megasphaera massiliensis, Megasphaera sp. BV3C16-1, Megasphaera sp. UPII 135-E, Megasphaera sp. UPII 199-6, Mesorhizobium loti, Mesorhizobium sp. mat916, Methylobacterium organophilum, Methylobacterium sp. CBMB45, Mobiluncus curtisii, Mobiluncus mulieris, Murdochiella asaccharolytica, Murdochiella sp. S9 PR-10, Mycoplasma hominis, Mycoplasma spermatophilum, Negativicoccus sp. S5-A15, Neisseria macacae, Ochrobactrum sp. SCTS14, Oligella urethralis, Pelomonas aquatica, Peptococcus sp. S9 Pr-12, Peptoniphilus coxii, Peptoniphilus duerdenii, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. BV3AC2, Peptoniphilus sp. DNF00192, Peptoniphilus sp. JCM 8143, Peptoniphilus sp. S4-A10, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. gpac148, Peptoniphilus sp. oral taxon 375, Peptoniphilus sp. oral taxon 836, Peptostreptococcus anaerobius, Phascolarctobacterium succinatutens, Porphyromonas bennonis, Porphyromonas somerae, Porphyromonas sp. 2024b, Porphyromonas sp. S8 86-12, Porphyromonas uenonis, Prevotella amnii, Prevotella bivia, Prevotella buccalis, Prevotella disiens, Prevotella sp. BV3C7, Prevotella sp. S4-10, Prevotella timonensis, Propionibacterium sp. KPL2005, Propionibacterium sp. MSPo9A, Propionimicrobium lymphophilum, Pseudoclavibacter sp. Timone, Pseudoglutamicibacter albus, Pseudoglutamicibacter cumminsii, Ralstonia pickettii, Raistonia sp. A52, Rhizobium sp. sc-w, Rhodopseudomonas boonkerdii, Sneathia sanguinegens, Sphingobium sp. LC341, Staphylococcus sp. 334802, Staphylococcus sp. C912, Staphylococcus sp. FXY54, Stenotrophomonas sp. KITS-1, Stenotrophomonas sp. N017, Streptococcus agalactiae, Streptococcus anginosus, Streptococcus dysgalactiae, Streptococcus gordonii, Streptococcus parasanguinis, Streptococcus pasteurianus, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. BS35a, Streptococcus thermophilus, Sutterella stercoricanis, Tessaracoccus sp. S L014B-79A, Trueperella bernardiae, Ureaplasma urealyticum, Varibaculum cambriense, Varibaculum sp. CCUG 45114, Varibaculum sp. CCUG 61255, Veillonella atypica, Veillonella montpellierensis, Veillonella parvula, Veillonella seminalis, Veillonella sp. 2011_Oral_VSA_D3, Abiotrophia, Achromobacter, Actinobaculum, Actinomyces, Aerococcus, Aero sphaera, Akkermansia, Allos cardovia, Anaerobacillus, Anaero coccus, Anaeroglobus, Arcanobacterium, Arthrobacter, Atopobium, Bacillus, Bacteroides, Bifidobacterium, Blautia, Bosea, Brachybacterium, Brevibacterium, Bulleidia, Campylobacter, Citrobacter, Collinsella, Corynebacterium, Curvibacter, Delftia, Dermabacter, Dialister, Enterococcus, Facklamia, Faecalibacterium, Fastidiosipila, Finegoldia, Fusicatenibacter, Fusobacterium, Gallicola, Gardnerella, Gemella, Globicatella, Granulicatella, Haemophilus, Helcococcus, Herbaspirillum, Howardella, Intestinibacter, Jonquetella, Kluyvera, Lachnospira, Lactobacillus, Leptotrichia, Lysinibacillus, Mesorhizobium, Methylobacterium, Mobiluncus, Mogibacterium, Moryella, Murdochiella, Mycoplasma, Negativicoccus, Ochrobactrum, Oligella, Parvibacter, Parvimonas, Pelomonas, Peptococcus, Peptoniphilus, Peptostreptococcus, Porphyromonas, Prevotella, Propionibacterium, Propionimicrobium, Pseudoclavibacter, Pseudomonas, Rhizobium, Rhodopseudomonas, Roseburia, Rothia, Sarcina, Senegalimassilia, Shuttleworthia, Sneathia, Sphingobium, Sphingomonas, Staphylococcus, Stenotrophomonas, Streptococcus, Subdoligranulum, Sutterella, Tessaracoccus, Trueperella, Ureaplasma, Varibaculum
 27. The method of claim 12, wherein the first sleep-related condition comprises a shift work condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a gut site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Acidaminococcus fermentans, Acidaminococcus intestini, Acidaminococcus sp. BV3L6, Acidaminococcus sp. D21, Acidaminococcus sp. HPA0509, Acinetobacter sp. 423D, Acinetobacter sp. 81A1, Actinobacillus porcinus, Actinomyces hongkongensis, Actinomyces neuii, Actinomyces odontolyticus, Actinomyces oris, Actinomyces radingae, Actinomyces sp. 2002-2301122, Actinomyces sp. ICM47, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S4-C9, Actinomyces sp. S6-Spd3, Actinomyces sp. S9 PR-21, Actinomyces sp. oral strain Hal-1065, Actinomyces turicensis, Actinomyces viscosus, Actinotignum schaalii, Adlercreutzia equolifaciens, Aerococcus christensenii, Aeromonas sp. B11, Aerosphaera taetra, Aggregatibacter aphrophilus, Aggregatibacter segnis, Akkermansia muciniphila, Alistipes finegoldii, Alistipes indistinctus, Alistipes inops, Alistipes massiliensis, Alistipes onderdonkii, Alistipes putredinis, Alistipes shahii, Alistipes sp. EBA6-25c12, Alistipes sp. HGB5, Alistipes sp. NMLo5A004, Alistipes sp. RMA 9912, Allisonella histaminiformans, Alloscardovia omnicolens, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus prevotii, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S8 F2, Anaerococcus sp. S9 PR-5, Anaerococcus sp. gpac137, Anaerococcus tetradius, Anaerococcus vaginalis, Anaerofustis stercorihominis, Anaeroglobus geminatus, Anaerosinus glycerini, Anaerosporobacter mobilis, Anaerostipes butyraticus, Anaerostipes caccae, Anaerostipes hadrus, Anaerostipes rhamnosivorans, Anaerostipes sp. 3_2_56FAA, Anaerostipes sp. 494a, Anaerostipes sp. 5_1_63FAA, Anaerostipes sp. 992a, Anaerotruncus colihominis, Anaerotruncus sp. NML 070203, Anaerovibrio sp. 656, Anaerovibrio sp. 765, Arcanobacterium haemolyticum, Arcanobacterium sp. NML065011, Arthrobacter sp., Asaccharospora irregularis, Atopobium deltae, Atopobium minutum, Atopobium sp. Fo209, Atopobium sp. ICM57, Atopobium sp. S3MV24, Atopobium sp. S3MV26, Atopobium sp. S3PFAA1-4, Atopobium vaginae, Bacillus sp. HCl5, Bacteroides acidifaciens, Bacteroides caccae, Bacteroides caecigallinarum, Bacteroides clarus, Bacteroides dorei, Bacteroides eggerthii, Bacteroides faecis, Bacteroides finegoldii, Bacteroides fluxus, Bacteroides fragilis, Bacteroides intestinalis, Bacteroides massiliensis, Bacteroides nordii, Bacteroides oleiciplenus, Bacteroides ovatus, Bacteroides plebeius, Bacteroides rodentium, Bacteroides salyersiae, Bacteroides sp., Bacteroides sp. 14(A), Bacteroides sp. 2_2_4, Bacteroides sp. 31SF15, Bacteroides sp. 35AE37, Bacteroides sp. 3_1_23, Bacteroides sp. 3_1_40A, Bacteroides sp. 4072, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. CB57, Bacteroides sp. D20, Bacteroides sp. D22, Bacteroides sp. DJF_B097, Bacteroides sp. EBA5-17, Bacteroides sp. HPS0048, Bacteroides sp. J1511, Bacteroides sp. SLC1-38, Bacteroides sp. Smarlab 3301643, Bacteroides sp. TP-5, Bacteroides sp. WH302, Bacteroides sp. XB12B, Bacteroides sp. XB44A, Bacteroides sp. dnLKV9, Bacteroides stercorirosoris, Bacteroides stercoris, Bacteroides thetaiotaomicron, Bacteroides uniformis, Bacteroides vulgatus, Bacteroides xylanisolvens, Barnesiella intestinihominis, Barnesiella viscericola, Bergeyella sp. AF14, Bifidobacterium adolescentis, Bifidobacterium animalis, Bifidobacterium biavatii, Bifidobacterium bifidum, Bifidobacterium breve, Bifidobacterium catenulatum, Bifidobacterium choerinum, Bifidobacterium dentium, Bifidobacterium gallicum, Bifidobacterium kashiwanohense, Bifidobacterium longum, Bifidobacterium merycicum, Bifidobacterium pseudocatenulatum, Bifidobacterium pullorum, Bifidobacterium scardovii, Bifidobacterium sp., Bifidobacterium sp. 120, Bifidobacterium sp. 138, Bifidobacterium sp. MSX5B, Bifidobacterium stercoris, Bifidobacterium thermacidophilum, Bifidobacterium tsurumiense, Bilophila sp. 4_1_30, Bilophila wadsworthia, Blautia coccoides, Blautia faecis, Blautia glucerasea, Blautia hansenii, Blautia hydrogenotrophica, Blautia luti, Blautia producta, Blautia schinkii, Blautia sp. Ser5, Blautia sp. Ser8, Blautia sp. YHC-4, Blautia stercoris, Blautia wexlerae, Brachybacterium sp. NIO-27, Brachybacterium sp. S26, Brachyspira aalborgi, Brevibacterium massiliense, Brevibacterium paucivorans, Brevibacterium ravenspurgense, Butyricicoccus pullicaecorum, Butyricimonas faecihominis, Butyricimonas paravirosa, Butyricimonas sp. 180-3, Butyricimonas sp. 214-4, Butyricimonas sp. GD2, Butyricimonas synergistica, Butyricimonas virosa, Butyrivibrio crossotus, Campylobacter faecalis, Campylobacter gracilis, Campylobacter hominis, Campylobacter jejuni, Campylobacter sp. 0402694-C0078, Campylobacter ureolyticus, Carnobacterium maltaromaticum, Catabacter hongkongensis, Catenibacterium mitsuokai, Cellulosilyticum lentocellum, Cellulosilyticum ruminicola, Citrobacter amalonaticus, Citrobacter sp. BW4, Citrobacter sp. HD4.9, Cloacibacillus evryensis, Cloacibacterium rupense, Clostridioides difficile, Clostridium ventriculi, Collinsella aerofaciens, Collinsella intestinalis, Collinsella tanakaei, Comamonas jiangduensis, Comamonas sp. j41, Coprobacillus sp. D6, Coprobacter fastidiosus, Coprobacter secundus, Corynebacterium argentoratense, Corynebacterium atypicum, Corynebacterium canis, Corynebacterium diphtheriae, Corynebacterium epidermidicanis, Corynebacterium frankenforstense, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium sp., Corynebacterium sp. 2300500, Corynebacterium sp. 713182/2012, Corynebacterium sp. NML 97-0186, Corynebacterium sp. jw37, Corynebacterium ulcerans, Cronobacter dublinensis, Cronobacter sakazakii, Cronobacter turicensis, Cruoricaptor ignavus, Cutibacterium acnes, Cutibacterium avidum, Deiftia lacustris, Delftia sp. BN-SKY3, Dermabacter sp. HFHoo86, Desulfovibrio piger, Desulfovibrio sp., Desulfovibrio sp. 3_1syn3, Desulfovibrio sp. UNSW3caefatS, Dialister invisus, Dialister micraerophilus, Dialister pneumosintes, Dialister propionicifaciens, Dialister sp. E2_20, Dialister sp. S4-23, Dialister sp. S7MSR5, Dialister succinatiphilus, Dielma fastidiosa, Dolosigranulum pigrum, Dorea formicigenerans, Dorea longicatena, Dysgonomonas capnocytophagoides, Eggerthella lenta, Eggerthella sinensis, Eggerthella sp. HGA1, Eisenbergiella tayi, Enterobacter asburiae, Enterobacter sp. BS2-1, Enterobacter sp. UDC345, Enterococcus durans, Enterococcus faecalis, Enterococcus hirae, Enterococcus pallens, Enterococcus sp. C6fI, Enterococcus sp. SI-4, Enterorhabdus caecimuris, Eremococcus coleocola, Erysipelatoclostridium ramosum, Eubacterium callanderi, Eubacterium limosum, Eubacterium sp. SA11, Facklamia hominis, Facklamia sp. 1440-97, Facklamia sp. 164-92, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Fastidiosipila sanguinis, Finegoldia magna, Finegoldia sp. BV3C29, Finegoldia sp. S5-A7, Finegoldia sp. S9 AA1-5, Flavonifractor plautii, Fusicatenibacter saccharivorans, Fusobacterium equinum, Fusobacterium mortiferum, Fusobacterium necrogenes, Fusobacterium nucleatum, Fusobacterium perfoetens, Fusobacterium periodonticum, Fusobacterium sp. AS2, Fusobacterium sp. CM21, Fusobacterium sp. DJF_B100, Fusobacterium sp. OBRC1, Fusobacterium ulcerans, Fusobacterium varium, Gardnerella sp. S3PF20, Gardnerella vaginalis, Gemella asaccharolytica, Gemella sp. 933-88, Globicatella sulfidifaciens, Gordonibacter pamelaeae, Granulicatella adiacens, H aemophilus influenzae, Haemophilus parainfluenzae, Hafnia alvei, Helcococcus seattlensis, Helcococcus sueciensis, Herbaspirillum seropedicae, Herbaspirillum sp. YR522, Holdemania filiformis, Howardella ureilytica, Intestinimonas butyriciproducens, Jonquetella anthropi, Jonquetella sp. BV3C4, Klebsiella oxytoca, Klebsiella sp. B12, Klebsiella sp. SOR89, Kluyvera georgiana, Lachnoanaerobaculum orale, Lachnoanaerobaculum sp. MSX33, Lachnospira pectinoschiza, Lactobacillus acidophilus, Lactobacillus algidus, Lactobacillus animalis, Lactobacillus coleohominis, Lactobacillus delbrueckii, Lactobacillus fornicalis, Lactobacillus gasseri, Lactobacillus helveticus, Lactobacillus iners, Lactobacillus jensenii, Lactobacillus johnsonii, Lactobacillus kefiri, Lactobacillus mucosae, Lactobacillus reuteri, Lactobacillus rhamnosus, Lactobacillus ruminis, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. BL302, Lactobacillus sp. C30An8, Lactobacillus sp. C4I2, Lactobacillus sp. CR-609S, Lactobacillus sp. NRCT-KU 1, Lactobacillus sp. TAB-22, Lactobacillus sp. TAB-26, Lactobacillus vaginalis, Lactococcus lactis, Lactococcus sp. MH5-2, Lactococcus sp. STM1, Lactonifactor longoviformis, Lautropia sp. TeTO, Leptotrichia genomosp. C1, Leptotrichia sp. PG10, Leuconostoc carnosum, Leuconostoc lactis, Leuconostoc sp. C714, Marvinbryantia formatexigens, Megamonas funiformis, Megasphaera elsdenii, Megasphaera genomosp. C1, Megasphaera massiliensis, Megasphaera micronuciformis, Megasphaera sp. BS-4, Megasphaera sp. BV3C16-1, Megasphaera sp. DNF00912, Megasphaera sp. S6-MB2, Megasphaera sp. TrE9262, Megasphaera sp. UPII 199-6, Methanobrevibacter smithii, Methanobrevibacter sp., Methanosphaera stadtmanae, Mitsuokella jalaludinii, Mitsuokella multacida, Mitsuokella sp. DJF_RR21, Mitsuokella sp. TM-10, Mobiluncus curtisii, Mobiluncus mulieris, Mogibacterium timidum, Moraxella catarrhalis, Morganella morganii, Moryella indoligenes, Murdochiella asaccharolytica, Murdochiella sp. S9 PR-10, Mycoplasma hominis, Negativicoccus sp. S5-A15, Neisseria flavescens, Neisseria macacae, Neisseria mucosa, Nosocomiicoccus ampullae, Ochrobactrum sp. SCTS14, Odoribacter laneus, Odoribacter splanchnicus, Oligella urethralis, Olsenella sp. S9 HS-6, Oribacterium sp. OBRC12, Oscillibacter valericigenes, Oscillospira guilliermondii, Pantoea gaviniae, Parabacteroides distasonis, Parabacteroides faecis, Parabacteroides goldsteinii, Parabacteroides gordonii, Parabacteroides johnsonii, Parabacteroides merdae, Parabacteroides sp. 20_3, Parabacteroides sp. D25, Parabacteroides sp. dnLKV8, Paraprevotella clara, Paraprevotella xylaniphila, Parasporobacterium paucivorans, Parasutterella excrementihominis, Parvimonas micra, Paucibacter sp. 186, Pediococcus sp. MFC1, Pelistega indica, Pelomonas aquatica, Peptococcus niger, Peptococcus sp. S9 Pr-12, Peptococcus sp. canine oral taxon 334, Peptoniphilus coxii, Peptoniphilus duerdenii, Peptoniphilus koenoeneniae, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. BV3AC2, Peptoniphilus sp. DNF00840, Peptoniphilus sp. JCM 8143, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. gpacl48, Peptoniphilus sp. oral taxon 375, Peptoniphilus sp. oral taxon 836, Peptostreptococcus anaerobius, Peptostreptococcus stomatis, Phascolarctobacterium faecium, Phascolarctobacterium sp. 377, Phascolarctobacterium sp. canine oral taxon 149, Phascolarctobacterium succinatutens, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas catoniae, Porphyromonas endodontalis, Porphyromonas sp. 2024b, Porphyromonas sp. S8 86-12, Porphyromonas uenonis, Prevotella amnii, Prevotella buccalis, Prevotella disiens, Prevotella intermedia, Prevotella nanceiensis, Prevotella nigrescens, Prevotella oris, Prevotella pallens, Prevotella sp. BV3C7, Prevotella sp. S4-10, Prevotella sp. WAL 2039G, Prevotella timonensis, Propionibacterium freudenreichii, Propionibacterium sp. KPL1844, Propionibacterium sp. MSPo9A, Propionimicrobium lymphophilum, Proteus mirabilis, Proteus penneri, Proteus vulgaris, Pseudobutyrivibrio ruminis, Pseudoclavibacter bifida, Pseudoclavibacter sp. Timone, Pseudoflavonifractor capillosus, Pseudoglutamicibacter albus, Pseudoglutamicibacter cumminsii, Pseudomonas monteilii, Pseudomonas sp. CBMAI 1177, Pseudomonas sp. KB23, Pseudomonas sp. a101-18-2, Pseudomonas sp. a111-5, Pyramidobacter piscolens, Rahnella sp. BSP15, Rahnella sp. BSP18, Rahnella sp. FB303, Ralstonia sp. S2.MAC.005, Raoultella ornithinolytica, Rhizobium sp. T45, Rikenella microfusus, Robinsoniella peoriensis, Robinsoniella sp. KNHs210, Rodentibacter pneumotropicus, Romboutsia lituseburensis, Roseburia faecis, Roseburia hominis, Roseburia intestinalis, Roseburia inulinivorans, Roseburia sp. 11SE39, Roseburia sp. 499, Rothia dentocariosa, Rothia mucilaginosa, Rothia sp. RV13, Rothia sp. THG-N7, Scardovia wiggsiae, Selenomonas sp. Ycb08, Slackia faecicanis, Slackia piriformis, Slackia sp. NATTS, Sneathia sanguinegens, Solobacterium moorei, Solobacterium sp. S4-A19, Sporobacter termitidis, Sporomusa sphaeroides, Staphylococcus simulans, Staphylococcus sp. 334802, Stenotrophomonas sp. C-S-TSA3, Stomatobaculum longum, Streptococcus dentirousetti, Streptococcus equinus, Streptococcus gordonii, Streptococcus parasanguinis, Streptococcus peroris, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Ileo_MS_A10, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. 2011_Oral_MS_D12, Streptococcus sp. BS35a, Streptococcus sp. GMD6S, Streptococcus sp. S16-11, Streptococcus sp. TM013, Streptococcus sp. oral taxon G59, Streptococcus thermophilus, Subdoligranulum variabile, Sutterella parvirubra, Sutterella sp. 252, Sutterella sp. YIT 12072, Sutterella stercoricanis, Sutterella wadsworthensis, Terrisporobacter glycolicus, Terrisporobacter petrolearius, Tessaracoccus lapidicaptus, Tessaracoccus sp. SLo14B-79A, Trueperella bernardiae, Turicibacter sanguinis, Turicibacter sp. LA62, Ureaplasma urealyticum, Varibaculum cambriense, Varibaculum sp. CCUG 45114, Veillonella atypica, Veillonella dispar, Veillonella montpellierensis, Veillonella parvula, Veillonella ratti, Veillonella rogosae, Veillonella seminalis, Veillonella sp. 2011_Oral_VSA_B12, Veillonella sp. 2011_Oral_VSA_C9, Veillonella sp. 2011_Oral_VSA_D12, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. ADV 269.01, Veillonella sp. AS16, Veillonella sp. MSA12, Veillonella sp. oral taxon 780, Victivallis vadensis, Weeksella virosa, Weissella cibaria, Weissella confusa, Weissella hellenica, Weissella sp. H1a, [Collinsella] massiliensis, Abiotrophia, Acetitomaculum, Acetivibrio, Acholeplasma, Achromobacter, Ac idaminococcus, Actinobacillus, Actinobaculum, Actinomyces, Adlercreutzia, Aerococcus, Aeromonas, Aerosphaera, Aggregatibacter, Akkermansia, Alistipes, Allisonella, Alloprevotella, Alloscardovia, Anaerobacillus, Anaerobacter, Anaerococcus, Anaerofilum, Anaerofustis, Anaeroglobus, Anaeroplasma, Anaerosinus, Anaerosporobacter, Anaerostipes, Anaerotruncus, Anaerovibrio, Anaerovorax, Arcanobacterium, Arthrobacter, Asaccharobacter, Asaccharospora, Asteroleplasma, Atopobium, Azospira, Bacillus, Bacteroides, Barnesiella, Bergeyella, Bifidobacterium, Bilophila, Blautia, Brachybacterium, Brachyspira, Bradyrhizobium, Brevibacterium, Butyricicoccus, Butyricimonas, Butyrivibrio, Caldicoprobacter, Campylobacter, Candidatus Methanomethylophilus, Candidatus Soleaferrea, Candidatus Stoquefichus, Capnocytophaga, Carnobacterium, Catabacter, Catenibacterium, Cellulosilyticum, Citrobacter, Cloacibacillus, Cloacibacterium, Clostridium, Collinsella, Comamonas, Coprobacillus, Coprobacter, Corynebacterium, Cronobacter, Cruoricaptor, Cupriavidus, Deinococcus, Delftia, Dermabacter, Desulfovibrio, Dialister, Dielma, Dolosigranulum, Dorea, Dysgonomonas, Eggerthella, Eisenbergiella, Enterococcus, Enterorhabdus, Eremococcus, Erysipelatoclostridium, Eubacterium, Facklamia, Faecalibacterium, Fastidiosipila, Fibrobacter, Finegoldia, Flavobacterium, Flavonifractor, Fretibacterium, Fusicatenibacter, Fusobacterium, Gallicola, Gardnerella, Gelria, Gemella, Gordonibacter, Granulicatella, Haemophilus, Hafnia, Helcococcus, Herbaspirillum, Hespellia, Holdemania, Howardella, Hydrogenoanaerobacterium, Intestinibacter, Intestinimonas, Klebsiella, Kluyvera, Lachnoanaerobaculum, Lachnospira, Lactobacillus, Lactococcus, Lactonifactor, Lautropia, Leptotrichia, Leuconostoc, Marvinbryantia, Megamonas, Megasphaera, Methanobrevibacter, Methanomassiliicoccus, Methanosphaera, Mitsuokella, Mobiluncus, Mogibacterium, Moraxella, Morganella, Moryella, Murdochiella, Mycobacterium, Mycoplasma, Negativicoccus, Neisseria, Nosocomiicoccus, Novosphingobium, Ochrobactrum, Odoribacter, Oligella, Olsenella, Oribacterium, Oscillibacter, Oscillospira, Pantoea, Papillibacter, Parabacteroides, Paraprevotella, Parasporobacterium, Parasutterella, Parvimonas, Pasteurella, Paucibacter, Pelistega, Pelomonas, Peptoclostridium, Peptococcus, Peptoniphilus, Peptostreptococcus, Phascolarctobacterium, Phyllobacterium, Porphyromonas, Prevotella, Propionibacterium, Propionimicrobium, Proteiniclasticum, Proteiniphilum, Proteus, Pseudobutyrivibrio, Pseudoclavibacter, Pseudoflavonifractor, Pseudomonas, Rahnella, Raoultella, Rhodobacter, Rhodococcus, Rikenella, Robinsoniella, Romboutsia, Roseburia, Rothia, Sarcina, Scardovia, Sedimentibacter, Selenomonas, Senegalimassilia, Shuttleworthia, Slackia, Sneathia, Solobacterium, Sporobacter, Sporomusa, Staphylococcus, Stomatobaculum, Streptococcus, Subdoligranulum, Succiniclasticum, Succinivibrio, Sutterella, Synergistes, Terrisporobacter, Tessaracoccus, Thalassospira, Trueperella, Turicibacter, Ureaplasma, Varibaculum, Veillonella, Victivallis, Weeksella, Weissella
 28. The method of claim 12, wherein the first sleep-related condition comprises a shift work condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a mouth site and with at least one of: Abiotrophia defectiva, Actinobacillus porcinus, Actinomyces dentalis, Actinomyces georgiae, Actinomyces gerencseriae, Actinomyces graevenitzii, Actinomyces massiliensis, Actinomyces meyeri, Actinomyces naeslundii, Actinomyces odontolyticus, Actinomyces oris, Actinomyces sp., Actinomyces sp. ICM34, Actinomyces sp. ICM41, Actinomyces sp. ICM47, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S6-Spd3, Actinomyces sp. ZSY-1, Actinomyces sp. oral strain Hal-1065, Actinomyces sp. oral taxon 170, Actinomyces sp. oral taxon 175, Actinomyces sp. oral taxon 178, Actinomyces sp. oral taxon 448, Actinomyces sp. ph3, Actinomyces viscosus, Aerococcus christensenii, Aggregatibacter aphrophilus, Aggregatibacter segnis, Akkermansia muciniphila, Alistipes finegoldii, Alistipes inops, Alistipes putredinis, Alistipes sp. EBA6-25c12, Alistipes sp. HGB5, Alistipes sp. NML05A004, Alistipes sp. RMA 9912, Alloprevotella rava, Alloprevotella tannerae, Alloscardovia omnicolens, Anaeroglobus geminatus, Anaerostipes hadrus, Anaerostipes sp. 5_1_63FAA, Anaerotruncus sp. NML 070203, Asaccharospora irregularis, Atopobium parvulum, Atopobium rimae, Atopobium sp. DMCT15023, Atopobium sp. ICM57, Bacteroides acidifaciens, Bacteroides caccae, Bacteroides clarus, Bacteroides coprocola, Bacteroides eggerthii, Bacteroides fragilis, Bacteroides intestinalis, Bacteroides massiliensis, Bacteroides nordii, Bacteroides plebeius, Bacteroides sp. 3_1_40A, Bacteroides sp. AR200, Bacteroides sp. AR29, Bacteroides sp. D22, Bacteroides sp. DJF_B097, Bacteroides sp. EBA5-17, Bacteroides sp. J1511, Bacteroides sp. SLC1-38, Bacteroides sp. XB12B, Bacteroides sp. XB44A, Bacteroides stercorirosoris, Bacteroides stercoris, Bacteroides thetaiotaomicron, Bacteroides uniformis, Bacteroides vulgatus, Barnesiella intestinihominis, Bergeriella denitrificans, Bifidobacterium adolescentis, Bifidobacterium kashiwanohense, Bifidobacterium longum, Bifidobacterium sp. MSX5B, Bilophila wadsworthia, Blautia faecis, Blautia luti, Blautia sp. YHC-4, Blautia stercoris, Blautia wexlerae, Bradyrhizobium sp. 68A4SAPT, Brevundimonas sp. FXJ8.080, Butyricimonas faecihominis, Butyricimonas paravirosa, Butyricimonas virosa, Butyrivibrio crossotus, Campylobacter concisus, Campylobacter gracilis, Campylobacter showae, Campylobacter sp. 10_1_50, Campylobacter sp. FOBRC15, Campylobacter ureolyticus, Capnocytophaga gingivalis, Capnocytophaga granulosa, Capnocytophaga haemolytica, Capnocytophaga ochracea, Capnocytophaga sp. AHN9576, Capnocytophaga sp. AHN9687, Capnocytophaga sp. AHN9756, Capnocytophaga sp. CM59, Capnocytophaga sp. HS5_2W_I24, Capnocytophaga sp. oral taxon 335, Capnocytophaga sp. oral taxon 336, Capnocytophaga sp. oral taxon 338, Capnocytophaga sputigena, Cardiobacterium hominis, Catenibacterium mitsuokai, Catonella morbi, Centipeda periodontii, Clostridioides difficile, Collinsella aerofaciens, Coprobacter fastidiosus, Corynebacterium durum, Corynebacterium glucuronolyticum, Corynebacterium matruchotii, Corynebacterium sp., Corynebacterium spheniscorum, Corynebacterium ulcerans, Cryptobacterium curtum, Cutibacterium acnes, Delftia lacustris, Delftia sp. BN-SKY3, Desulfobulbus sp. oral taxon 041, Desulfovibrio sp. 3_1_syn3, Dialister invisus, Dialister micraerophilus, Dialister pneumosintes, Dolosigranulum pigrum, Dorea formicigenerans, Dorea longicatena, Eggerthella lenta, Eggerthia catenaformis, Eikenella corrodens, Eisenbergiella tayi, Erysipelatoclostridium ramosum, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Filifactor alocis, Finegoldia sp. S8 F7, Finegoldia sp. S9 AA1-5, Flavonifractor plautii, Fretibacterium fastidiosum, Fusicatenibacter saccharivorans, Fusobacterium nucleatum, Fusobacterium periodonticum, Fusobacterium sp. AS2, Fusobacterium sp. CM21, Fusobacterium sp. CM22, Fusobacterium sp. OBRC1, Gardnerella vaginalis, Gemella morbillorum, Gemella sanguinis, Gemella sp. 933-88, Gordonibacter pamelaeae, Granulicatella adiacens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Herbaspirillum seropedicae, Kingella oralis, Kluyvera georgiana, Lachnoanaerobaculum orale, Lachnoanaerobaculum saburreum, Lachnoanaerobaculum sp. MSX33, Lachnoanaerobaculum sp. OBRC5-5, Lachnoanaerobaculum umeaense, Lachnospira pectinoschiza, Lactobacillus crispatus, Lactobacillus paracasei, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. Akhmrol, Lactobacillus sp. BL302, Lactobacillus sp. NRCT-KU 1, Lactobacillus vaginalis, Lautropia sp. TeTO, Leptotrichia buccalis, Leptotrichia genomosp. C1, Leptotrichia goodfellowii, Leptotrichia hofstadii, Leptotrichia hongkongensis, Leptotrichia shahii, Leptotrichia sp. PG10, Leptotrichia sp. PTE15, Leptotrichia sp. oral taxon 223, Leptotrichia sp. oral taxon 225, Leptotrichia trevisanii, Leptotrichia wadei, Lysinibacillus sp. SJ2SN2, Mannheimia granulomatis, Megamonas funiformis, Megasphaera genomosp. C1, Megasphaera massiliensis, Megasphaera micronuciformis, Megasphaera sp. UPII 199-6, Methanobrevibacter smithii, Methanosphaera stadtmanae, Methylobacterium longum, Methylobacterium sp. RK-2008-1, Mogibacterium pumilum, Mogibacterium sp. CM50, Mogibacterium sp. CM96, Mogibacterium timidum, Moraxella sp. WB19-16, Mycoplasma falconis, Mycoplasma salivarium, Mycoplasma subdolum, Neisseria bacilliformis, Neisseria elongata, Neisseria flavescens, Neisseria macacae, Neisseria mucosa, Neisseria oralis, Neisseria shayeganii, Neisseria sicca, Neisseria skkuensis, Neisseria sp. 104(2012), Odoribacter laneus, Odoribacter splanchnicus, Olsenella sp. F0004, Oribacterium sp. CM12, Oribacterium sp. oral taxon 078, Oribacterium sp. oral taxon 102, Oribacterium sp. oral taxon 108, Parabacteroides distasonis, Parabacteroides faecis, Parabacteroides goldsteinii, Parabacteroides gordonii, Parabacteroides johnsonii, Parabacteroides merdae, Parascardovia denticolens, Parasutterella excrementihominis, Parvimonas micra, Parvimonas sp. oral taxon 393, Peptococcus sp. oral taxon 168, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. gpac018A, Peptostreptococcus stomatis, Phascolarctobacterium faecium, Phascolarctobacterium sp. 377, Phascolarctobacterium succinatutens, Porphyromonas bennonis, Porphyromonas catoniae, Porphyromonas endodontalis, Porphyromonas gingivalis, Porphyromonas uenonis, Prevotella aurantiaca, Prevotella bivia, Prevotella disiens, Prevotella intermedia, Prevotella nanceiensis, Prevotella nigrescens, Prevotella oralis, Prevotella oris, Prevotella oulorum, Prevotella pallens, Prevotella sp. WAL 2039G, Prevotella sp. oral taxon 299, Prevotella sp. oral taxon G60, Propionibacterium sp. MSP09A, Pseudomonas sp. KB23, Pseudopropionibacterium propionicum, Rhizobium sp. T45, Robinsoniella sp. KNHs210, Rodentibacter pneumotropicus, Roseburia faecis, Roseburia hominis, Roseburia intestinalis, Roseburia inulinivorans, Roseburia sp. 11SE39, Rothia aeria, Rothia dentocariosa, Rothia mucilaginosa, Rothia sp. CCUG 25688, Rothia sp. THG-N7, Scardovia wiggsiae, Selenomonas genomosp. P5, Selenomonas sp. CM52, Shuttleworthia sp. oral taxon G69, Slackia sp. NATTS, Solobacterium moorei, Solobacterium sp. S4-A19, Staphylococcus epidermidis, Staphylococcus sp. 334802, Staphylococcus sp. C912, Stomatobaculum longum, Streptococcus dentirousetti, Streptococcus gordonii, Streptococcus infantis, Streptococcus intermedius, Streptococcus mitis, Streptococcus mutans, Streptococcus parasanguinis, Streptococcus peroris, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. 2011_Oral_MS_H4, Streptococcus sp. BS35a, Streptococcus sp. GMD6S, Streptococcus sp. oral taxon G59, Streptococcus sp. oral taxon G63, Streptococcus thermophilus, Subdoligranulum variabile, Sutterella sterco ricanis, Sutterell a wadsworthensis, Tannerella forsythia, Tannerella sp. oral taxon HOT-286, Terrisporobacter glycolicus, Tessaracoccus lapidicaptus, Vagococcus sp. SIX2 (2011), Varibaculum cambriense, Veillonella atypica, Veillonella dispar, Veillonella parvula, Veillonella rogosae, Veillonella sp. 2011_Oral_VSA_B12, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. 6_127, Veillonella sp. CM60, Veillonella sp. JL-2, Veillonella sp. oral taxon 780, Veillonella tobetsuensis, [Collinsella] massiliensis, Abiotrophia, Acetitomaculum, Achromobacter, Actinobacillus, Actinomyces, Aerococcus, Aggregatibacter, Akkermansia, Alistipes, Alloprevotella, Alloscardovia, Alysiella, Anaerobacillus, Anaerococcus, Anaeroglobus, Anaeroplasma, Anaerosporobacter, Anaerostipes, Anaerotruncus, Anaerovorax, Asaccharospora, Atopobium, Barnesiella, Bergeriella, Bergeyella, Bifidobacterium, Bilophila, Blautia, Brevundimonas, Butyricimonas, Butyrivibrio, Campylobacter, Candidatus Saccharimonas, Candidatus Soleaferrea, Capnocytophaga, Cardiobacterium, Catenibacterium, Catonella, Centipeda, Chryseobacterium, Clostridium, Collinsella, Comamonas, Coprobacter, Corynebacterium, Cryptobacterium, Delftia, Desulfobulbus, Dialister, Dolosigranulum, Dorea, Eggerthella, Eggerthia, Eikenella, Eisenbergiella, Enterococcus, Enterorhabdus, Erysipelatoclostridium, Faecalibacterium, Fibrobacter, Filifactor, Finegoldia, Flavobacterium, Flavonifractor, Fretibacterium, Fusicatenibacter, Fusobacterium, Gardnerella, Gemella, Gordonibacter, Granulicatella, Haemophilus, Herbaspirillum, Howardella, Intestinibacter, Intestinimonas, Johnsonenella, Kingella, Kluyvera, Lachnoanaerobaculum, Lachnospira, Lactobacillus, Lautropia, Leptotrichia, Marvinbryantia, Megamonas, Megasphaera, Methanobrevibacter, Methanosphaera, Methylobacterium, Mogibacterium, Moraxella, Moryella, Mycobacterium, Neisseria, Odoribacter, Olsenella, Oribacterium, Oscillibacter, Oscillospira, Pantoea, Parabacteroides, Paraprevotella, Parascardovia, Parasporobacterium, Parasutterella, Parvimonas, Pasteurella, Peptoclostridium, Peptococcus, Peptostreptococcus, Porphyromonas, Prevotella, Propionibacterium, Pseudobutyrivibrio, Rhizobium, Roseburia, Rothia, Sarcina, Scardovia, Selenomonas, Shuttleworthia, Solobacterium, Sphingomonas, Staphylococcus, Stomatobaculum, Streptococcus, Subdoligranulum, Sutterella, Tannerella, Terrisporobacter, Tessaracoccus, Vagococcus, Veillonella, Victivallis
 29. The method of claim 12, wherein the first sleep-related condition comprises a shift work condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a nose site and with at least one of: Abiotrophia defectiva, Achromobacter xylosoxidans, Acidovorax sp. LR05, Acinetobacter radioresistens, Acinetobacter sp. 423D, Acinetobacter sp. C-S-NA3, Acinetobacter sp. HD5.2, Acinetobacter sp. RBE2CD-114, Acinetobacter sp. WB22-23, Acinetobacter ursingii, Actinobacillus porcinus, Actinomyces dentalis, Actinomyces europaeus, Actinomyces genomosp. C1, Actinomyces georgiae, Actinomyces graevenitzii, Actinomyces israelii, Actinomyces neuii, Actinomyces odontolyticus, Actinomyces radingae, Actinomyces sp. ICM54, Actinomyces sp. ICM58, Actinomyces sp. S4-C9, Actinomyces sp. oral taxon 175, Actinomyces viscosus, Actinotignum schaalii, Aerococcus christensenii, Aerococcus sp. B43(200100), Aerococcus urinae, Aerococcus viridans, Aeromonas salmonicida, Aeromonas sp. B11, Aerosphaera taetra, Aggregatibacter aphrophilus, Aggregatibacter segnis, Akkermansia muciniphila, Albidovulum inexpectatum, Alistipes finegoldii, Alistipes putredinis, Alkalibacterium sp. I-5, Alkanindiges illinoisensis, Alloiococcus otitis, Alloprevotella rava, Alloprevotella tannerae, Anaerobacillus alkalidiazotrophicus, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S8 F2, Anaerococcus tetradius, Anaerococcus vaginalis, Anaerostipes sp. 5_1_63FAA, Aquabacterium sp. Aqua2, Atopobium sp. S3MV26, Atopobium sp. S3PFAA1-4, Atopobium sp. S4-A11a, Bacillus cereus, Bacillus pseudofirmus, Bacillus sp. T41, Bacteroides dorei, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. J1511, Bacteroides vulgatus, Bergeyella sp. AF14, Bergeyella zoohelcum, Bifidobacterium bifidum, Bifidobacterium longum, Bifidobacterium sp., Bifidobacterium stercoris, Blastococcus aggregatus, Blautia faecis, Blautia luti, Blautia wexlerae, Bosea sp. R-46060, Brachybacterium faecium, Brachybacterium muris, Bradyrhizobium sp. 68A4SAPT, Bradyrhizobium sp. CCBAU 53380, Bradyrhizobium sp. MG-2011-42-CD, Brevibacterium massiliense, Brevibacterium paucivorans, Brevibacterium ravenspurgense, Brevibacterium sp. MBTD_CMFRI_Br02, Brevundimonas diminuta, Brevundimonas sp. FXJ8.080, Brevundimonas sp. JW23.4a, Brevundimonas sp. V3M6, Brevundimonas sp. a101-97, Brochothrix thermosphacta, Burkholderia sp. CBPB-HIM, Campylobacter sputorum, Campylobacter ureolyticus, Capnocytophaga cynodegmi, Capnocytophaga gingivalis, Capnocytophaga granulosa, Capnocytophaga sp. oral taxon 329, Capnocytophaga sputigena, Cardiobacterium hominis, Caulobacter sp., Centipeda periodontii, Chryseobacterium anthropi, Chryseobacterium sp. IIL-Nv8, Chryseobacterium sp. PYR2, Chryseobacterium sp. YiD, Citrobacter sp. BW4, Collinsella aerofaciens, Corynebacterium argentoratense, Corynebacterium atypicum, Corynebacterium canis, Corynebacterium caspium, Corynebacterium diphtheriae, Corynebacterium durum, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium matruchotii, Corynebacterium sp., Corynebacterium sp. 713182/2012, Corynebacterium sp. NML 97-0186, Corynebacterium sp. NML96-0085, Corynebacterium sp. jw37, Corynebacterium spheniscorum, Corynebacterium ulcerans, Curvibacter gracilis, Cutibacterium acnes, Cutibacterium avidum, Cutibacterium granulosum, Deinococcus sp. UAC-77, Deinococcus taklimakanensis, Delftia lacustris, Delftia sp. BN-SKY3, Dermabacter hominis, Dermabacter sp. HFH0086, Dermacoccus sp. Ellin183, Dermacoccus sp. SST-20, Dialister invisus, Dialister micraerophilus, Dialister propionicifaciens, Dialister sp. E2_20, Dialister succinatiphilus, Dolosigranulum pigrum, Dorea formicigenerans, Dorea longicatena, Enterobacter cloacae, Enterobacter sp. BS2-1, Enterococcus faecalis, Enterococcus sp. SI-4, Eremococcus coleocola, Facklamia hominis, Facklamia languida, Facklamia sp. 1440-97, Facklamia sp. 164-92, Faecalibacterium prausnitzii, Fastidiosipila sanguinis, Finegoldia magna, Finegoldia sp. S8 F7, Finegoldia sp. S9 AA1-5, Flavobacterium johnsoniae, Flavobacterium rivuli, Flavobacterium sp. CS43, Flavobacterium sp. EP372, Flavobacterium sp. ICM 1082, Fusicatenibacter saccharivorans, Fusobacterium nucleatum, Fusobacterium periodonticum, Fusobacterium sp. ACB2, Fusobacterium sp. CM21, Fusobacterium sp. CM22, Fusobacterium sp. OBRC1, Gardnerella sp. S3PF20, Gardnerella vaginalis, Gemella morbillorum, Gemella sp. 933-88, Globicatella sanguinis, Granulicatella adiacens, Granulicatella elegans, Haemophilus influenzae, Haemophilus parainfluenzae, Halomonas sp. VS-1002, Helcococcus sueciensis, Jonquetella anthropi, Klebsiella sp. B12, Kluyvera georgiana, Kocuria rhizophila, Kocuria sp. LW2-LEVI2-W, Kocuria sp. M1-36, Kocuria sp. M2T9B2, Kocuria sp. PDM-7, Kytococcus sp. YB227, Lachnoanaerobaculum saburreum, Lachnospira pectinoschiza, Lactobacillus crispatus, Lactobacillus curvatus, Lactobacillus iners, Lactobacillus plantarum, Lactobacillus reuteri, Lactobacillus rhamnosus, Lactobacillus salivarius, Lactobacillus sp. 7_1_47FAA, Lactobacillus sp. TAB-26, Lactococcus lactis, Lactococcus sp. MH5-2, Lautropia sp. TeTO, Leptotrichia buccalis, Leptotrichia hongkongensis, Leptotrichia sp. PTE15, Leptotrichia sp. oral taxon 225, Leptotrichia wadei, Leuconostoc lactis, Luteimonas aestuarii, Lysinibacillus sp. SJ2SN2, Lysinibacillus sphaericus, Massilia oculi, Massilia sp. hp37, Megasphaera micronuciformis, Megasphaera sp. UPII 199-6, Mesorhizobium loti, Mesorhizobium sp. mat916, Methylobacterium adhaesivum, Methylobacterium sp. CBMB45, Methylobacterium sp. JC86, Methylobacterium sp. RK-2008-1, Microbacterium lacticum, Microbacterium sp. PcRBo24, Microbacterium xylanilyticum, Micrococcus luteus, Micrococcus sp. WB18-01, Mobiluncus mulieris, Mogibacterium pumilum, Moraxella caprae, Moraxella catarrhalis, Moraxella lincolnii, Moraxella sp., Moraxella sp. BBN2P-02d, Moraxella sp. WB19-16, Morganella morganii, Murdochiella sp. S9 PR-10, Mycobacterium chelonae, Negativicoccus sp. S5-A15, Negativicoccus succinicivorans, Neisseria canis, Neisseria elongata, Neisseria macacae, Neisseria mucosa, Neisseria oralis, Neisseria skkuensis, Nesterenkonia sp. JS3, Nosocomiicoccus ampullae, Ochrobactrum sp. LC498, Ochrobactrum sp. SCTS14, Ochrobactrum tritici, Odoribacter splanchnicus, Pantoea vagans, Pedobacter heparinus, Pelomonas aquatica, Peptococcus sp. oral taxon 168, Peptoniphilus coxii, Peptoniphilus duerdenii, Peptoniphilus lacrimalis, Peptoniphilus sp. 1-14, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. DNFoo840, Peptoniphilus sp. JCM 8143, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpacoi8A, Peptoniphilus sp. gpac148, Peptoniphilus sp. oral taxon 375, Peptoniphilus sp. oral taxon 836, Peptostreptococcus anaerobius, Peptostreptococcus stomatis, Peredibacter starrii, Phyllobacterium sp. T50, Porphyrobacter sp. NMC2 2, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas catoniae, Porphyromonas endodontalis, Porphyromonas somerae, Prevotella bivia, Prevotella buccalis, Prevotella disiens, Prevotella nanceiensis, Prevotella nigrescens, Prevotella oris, Prevotella oulorum, Prevotella pallens, Prevotella sp. S4-10, Prevotella timonensis, Propionibacterium sp. KPL1844, Propionibacterium sp. KPL2005, Propionibacterium sp. MSPo9A, Propionibacterium sp. V07/12348, Propionimicrobium lymphophilum, Pseudochrobactrum sp. aool-58, Pseudoclavibacter bifida, Pseudoclavibacter sp. Timone, Pseudoglutamicibacter albus, Pseudomonas aeruginosa, Pseudomonas agarici, Pseudomonas brenneri, Pseudomonas monteilii, Pseudomonas sp. CBMAI 1177, Pseudomonas sp. DQ-01, Pseudomonas sp. G1116, Pseudomonas sp. GmFRB014, Pseudomonas sp. GmFRBo23, Pseudomonas sp. KB23, Pseudomonas sp. PDD-27b-3, Pseudomonas sp. PcFRB100, Pseudomonas sp. a101-18-2, Pseudomonas sp. a111-5, Pseudomonas syringae, Pseudonocardia sp. MBo3-A, Rahnella sp. BSP18, Ralstonia sp. A52, Ralstonia sp. S2.MAC.005, Rhizobium etli, Rhizobium sp. 10II, Rhizobium sp. T45, Rhodococcus erythropolis, Rhodopseudomonas boonkerdii, Roseburia faecis, Roseburia intestinalis, Roseburia inulinivorans, Roseburia sp. 11SE39, Rothia aeria, Rothia dentocariosa, Rothia sp. BBH4, Rothia sp. THG-N7, Shewanella sp. bk_8, Shinella sp. DR33, Solanum lycopersicum, Solobacterium moorei, Sphingobacterium sp. KB45, Sphingobium sp. LC341, Sphingobium yanoikuyae, Sphingomonas aerolata, Sphingomonas aquatilis, Sphingomonas oligophenolica, Sphingomonas sp. 24T, Sphingomonas sp. 540, Sphingomonas sp. KOPRI 25661, Sphingomonas sp. PDD-26b-16, Staphylococcus aureus, Staphylococcus equorum, Staphylococcus saprophyticus, Staphylococcus sp. 334802, Staphylococcus sp. C912, Staphylococcus sp. L10, Staphylococcus sp. WB18-16, Staphylococcus vitulinus, Stenotrophomonas sp. C-S-TSA3, Stenotrophomonas sp. KITS-1, Stenotrophomonas sp. Noi7, Stenotrophomonas sp. Z2-S2, Stomatobaculum longum, Streptococcus oralis, Streptococcus parasanguinis, Streptococcus peroris, Streptococcus pneumoniae, Streptococcus sobrinus, Streptococcus sp. 11aTha1, Streptococcus sp. 2011_Ileo_MS_Am, Streptococcus sp. 2011_Oral_MS_A3, Streptococcus sp. BS35a, Streptococcus sp. oral taxon G59, Streptococcus thermophilus, Subdoligranulum variabile, Tannerella forsythia, Tessaracoccus sp. SLoi4B-79A, Trueperella bernardiae, Turicella otitidis, Turicibacter sanguinis, Varibaculum cambriense, Varibaculum sp. CCUG 45114, Variovorax sp. MM43Nov, Veillonella atypica, Veillonella parvula, Veillonella rogosae, Veillonella seminalis, Veillonella sp. AS16, Veillonella sp. CM60, Veillonella sp. oral taxon 780, Weissella confusa, Xenophilus sp. XB36, Yersinia enterocolitica Abiotrophia, Achromobacter, Acidovorax, Acinetobacter, Actinobacillus, Actinobaculum, Actinomyces, Aerococcus, Aeromonas, Aerosphaera, Aggregatibacter, Akkermansia, Albidovulum, Alistipes, Alkalibacterium, Alkanindiges, Alloiococcus, Alloprevotella, Anaerobacillus, Anaerococcus, Anaerostipes, Anaerotruncus, Aquabacterium, Arthrobacter, Bacillus, Bacteroides, Bergeyella, Blautia, Bordetella, Bosea, Brachybacterium, Brachymonas, Bradyrhizobium, Brevibacterium, Brevundimonas, Brochothrix, Campylobacter, Candidatus Saccharimonas, CandidatusXiphinematobacter, Capnocytophaga, Cardiobacterium, Caulobacter, Centipeda, Chryseobacterium, Citrobacter, Clostridium, Collinsella, Conchiformibius, Corynebacterium, Curvibacter, Cutibacterium, Defluviimonas, Deinococcus, Delftia, Dermabacter, Dermacoccus, Dialister, Dolosigranulum, Dorea, Duganella, Dyadobacter, Enterobacter, Enterococcus, Epilithonimonas, Eremococcus, Erysipelatoclostridium, Facklamia, Faecalibacterium, Ferruginibacter, Finegoldia, Flavobacterium, Flavonifractor, Fusibacter, Fusicatenibacter, Fusobacterium, Gardnerella, Gemella, Globicatella, Granulicatella, Haemophilus, Halomonas, Helcococcus, Herbaspirillum, Hymenobacter, Intestinibacter, Janthinobacterium, Jonquetella, Klebsiella, Kluyvera, Kocuria, Kytococcus, Lachnoanaerobaculum, Lachnospira, Lactobacillus, Lactococcus, Lautropia, Leptotrichia, Leucobacter, Leuconostoc, Lysinibacillus, Massilia, Megasphaera, Mesorhizobium, Methylobacterium, Microbacterium, Micrococcus, Mogibacterium, Moraxella, Morganella, Moryella, Murdochiella, Myroides, Negativicoccus, Neisseria, Nesterenkonia, Nosocomiicoccus, Novosphingobium, Ochrobactrum, Odoribacter, Oribacterium, Pantoea, Parvimonas, Pelomonas, Peptococcus, Peptoniphilus, Peptostreptococcus, Peredibacter, Phyllobacterium, Porphyrobacter, Porphyromonas, Prevotella, Propionibacterium, Propionimicrobium, Proteus, Pseudobutyrivibrio, Pseudochrobactrum, Pseudoclavibacter, Pseudomonas, Pseudonocardia, Ralstonia, Rhizobium, Rhodobacter, Rhodococcus, Rhodopseudomonas, Roseburia, Rothia, Rubellimicrobium, Sarcina, Shewanella, Shinella, Shuttleworthia, Solanum, Solirubrobacter, Solobacterium, Sphingobium, Sphingomonas, Staphylococcus, Stenotrophomonas, Stomatobaculum, Streptococcus, Subdoligranulum, Tessaracoccus, Thalassospira, Trueperella, Turicella, Turicibact er, Varibaculum, Variovorax, Veillonella, Xenophilus, Yersinia
 30. The method of claim 12, wherein the first sleep-related condition comprises a shift work condition, wherein determining user microbiome features comprises determining the user microbiome composition features comprising a set of composition features associated with a skin site and with at least one of: Achromobacter xylosoxidans, Acinetobacter baumannii, Acinetobacter kyonggiensis, Acinetobacter radioresistens, Acinetobacter sp. C-S-NA3, Acinetobacter sp. Co49, Acinetobacter sp. HD5.2, Acinetobacter sp. RBE2CD-114, Acinetobacter sp. RBE2CD-76, Acinetobacter sp. T133, Acinetobacter sp. WB22-23, Acinetobacter ursingii, Actinobacillus porcinus, Actinomyces dentalis, Actinomyces genomosp. C1, Actinomyces georgiae, Actinomyces gerencseriae, Actinomyces neuii, Actinomyces odontolyticus, Actinomyces radingae, Actinomyces sp. ICM54, Actinomyces sp. oral taxon 175, Actinomyces sp. oral taxon 448, Actinomyces viscosus, Aerococcus christensenii, Aeromonas salmonicida, Aerosphaera taetra, Alistipes putredinis, Anaerobacillus alkalidiazotrophicus, Anaerococcus hydrogenalis, Anaerococcus lactolyticus, Anaerococcus murdochii, Anaerococcus octavius, Anaerococcus prevotii, Anaerococcus provencensis, Anaerococcus sp. 8404299, Anaerococcus sp. 8405254, Anaerococcus sp. 9401487, Anaerococcus sp. PH9, Anaerococcus sp. S8 87-3, Anaerococcus sp. S9 PR-16, Anaerococcus tetradius, Anaerostipes sp. 5_1_63FAA, Anas phyllosphaerae, Bacillus megaterium, Bacillus pseudofirmus, Bacillus safensis, Bacillus sp. T41, Bacteroides acidifaciens, Bacteroides caccae, Bacteroides sp. AR20, Bacteroides sp. AR29, Bacteroides sp. EBA5-17, Bacteroides sp. J1511, Bacteroides stercoris, Bacteroides uniformis, Bacteroides vulgatus, Blastocatella fastidiosa, Blastococcus aggregatus, Blautia faecis, Blautia luti, Blautia wexlerae, Bosea sp. B0.09-49, Brachybacterium muris, Bradyrhizobium sp. 68A4SAPT, Bradyrhizobium sp. CCBAU 53380, Brevibacterium paucivorans, Brevibacterium ravenspurgense, Brevundimonas diminuta, Brevundimonas sp. FXJ8.080, Brevundimonas sp. JW23.4a, Brevundimonas sp. V3M6, Campylobacter ureolyticus, Centipeda periodontii, Chryseobacterium sp. R064, Chryseobacterium sp. R31, Chryseobacterium sp. SOZ3-3181, Chryseomicrobium imtechense, Citrobacter sp. BW4, Cloacibacterium normanense, Collinsella aerofaciens, Comamonas jiangduensis, Comamonas sp. HM_AF10, Corynebacterium argentoratense, Corynebacterium canis, Corynebacterium capitovis, Corynebacterium diphtheriae, Corynebacterium durum, Corynebacterium epidermidicanis, Corynebacterium felinum, Corynebacterium freiburgense, Corynebacterium glucuronolyticum, Corynebacterium mastitidis, Corynebacterium matruchotii, Corynebacterium sp., Corynebacterium sp. NML 97-0186, Corynebacterium sp. jw37, Corynebacterium spheniscorum, Cutibacterium acnes, Cutibacterium avidum, Cutibacterium granulosum, Delftia lacustris, Delftia sp. BN-SKY3, Dermabacter hominis, Dermabacter sp. HFH0086, Dermacoccus sp. Ellin183, Dermacoccus sp. SST-20, Dialister propionicifaciens, Dietzia cinnamea, Dietzia sp. ISA13, Dolosigranulum pigrum, Dorea formicigenerans, Dorea longicatena, Elizabethkingia meningoseptica, Enterobacter cloacae, Exiguobacterium sp. icr3, Facklamia sp. 164-92, Facklamia tabacinasalis, Faecalibacterium prausnitzii, Faecalibacterium sp. canine oral taxon 147, Fastidiosipila sanguinis, Finegoldia magna, Finegoldia sp. BV3C29, Finegoldia sp. S9 AA1-5, Flavobacterium lindanitolerans, Flavobacterium qiangtangense, Flavobacterium sp. CS43, Fusicatenibacter saccharivorans, Fusobacterium nucleatum, Fusobacterium sp. ACB2, Gaiella occulta, Gardnerella vaginalis, Gemella morbillorum, Gemella sp. 933-88, Geobacillus stearothermophilus, Globicatella sanguinis, Gordonia terrae, Granulicatella adiacens, Haemophilus influenzae, Haemophilus parainfluenzae, Helcococcus sueciensis, Herbaspirillum huttiense, Klebsiella sp. B12, Kluyvera georgiana, Kocuria marina, Kocuria rhizophila, Lachnoanaerobaculum saburreum, Lachnospira pectinoschiza, Lactobacillus crispatus, Lactobacillus fornicalis, Lactobacillus iners, Lactobacillus sp. 7_1_47FAA, Leptotrichia hofstadii, Leptotrichia wadei, Lysinibacillus sp. SJ2SN2, Lysinibacillus sphaericus, Lysobacter brunescens, Malassezia restricta, Marmoricola aurantiacus, Massilia sp. S5-252-1, Massilia sp. TMT4-34, Massilia sp. hp37, Megasphaera sp. UPII 199-6, Meiothermus silvanus, Mesorhizobium loti, Mesorhizobium sp. mat916, Methylobacterium adhaesivum, Methylobacterium sp. 399, Methylobacterium sp. 57, Methylobacterium sp. CBMB45, Methylobacterium sp. Gh-143, Methylobacterium sp. RK-2008-1, Microbacterium lacticum, Microbacterium paraoxydans, Microbacterium sp. GGC-P2D, Microbacterium sp. absalar, Microbacterium yannicii, Micrococcus luteus, Micrococcus sp. WB18-01, Moraxella catarrhalis, Moraxella nonliquefaciens, Morganella morganii, Mycobacterium sp. 18 GUW, Mycobacterium sp. C0183, Mycobacterium sp. UNC410CL29Cvi84, Negativicoccus sp. S5-A15, Neisseria macacae, Neisseria mucosa, Novosphingobium sp. THA_AIK7, Nubsella zeaxanthinifaciens, Ochrobactrum sp. LC498, Ochrobactrum sp. SCTS14, Odoribacter splanchnicus, Pantoea vagans, Parabacteroides distasonis, Parasutterella excrementihominis, Parvimonas micra, Paucibacter sp. 186, Pelomonas aquatica, Peptococcus sp. S9 Pr-12, Peptoniphilus lacrimalis, Peptoniphilus sp. 2002-2300004, Peptoniphilus sp. 2002-38328, Peptoniphilus sp. 7-2, Peptoniphilus sp. BV3AC2, Peptoniphilus sp. DNFoo192, Peptoniphilus sp. S9 PR-13, Peptoniphilus sp. gpac018A, Peptoniphilus sp. gpac148, Peptoniphilus sp. oral taxon 375, Peptostreptococcus anaerobius, Phascolarctobacterium faecium, Phyllobacterium sp. T50, Porphyromonas asaccharolytica, Porphyromonas bennonis, Porphyromonas somerae, Porphyromonas sp. 2024b, Prevotella buccalis, Prevotella disiens, Prevotella oulorum, Propionibacterium sp. KPL1844, Propionibacterium sp. KPL2005, Propionibacterium sp. MSPo9A, Propionibacterium sp. V07/12348, Propionimicrobium lymphophilum, Pseudoclavibacter sp. Timone, Pseudoglutamicibacter albus, Pseudomonas citronellolis, Pseudomonas monteilii, Pseudomonas sp. DQ-01, Pseudomonas sp. G1116, Pseudomonas sp. KB23, Pseudomonas sp. KVS86, Pseudomonas sp. PDD-27b-3, Pseudomonas sp. PKG89, Pseudomonas sp. PcFRBo72, Pseudomonas sp. PcFRB119, Pseudomonas sp. a101-18-2, Pseudomonas sp. a111-5, Pseudonocardia sp. ARG1, Psychrobacter sp. S1-1, Ralstonia sp. A52, Ralstona sp. S2.MAC.005, Rhizobium etli, Rhizobium nepotum, Rhizobium sp. 10II, Rhizobium sp. T45, Rhizobium sp. sc-w, Rhodococcus erythropolis, Roseburia faecis, Roseburia intestinalis, Roseburia sp. 11SE39, Roseomonas cervicalis, Rothia dentocariosa, Rothia mucilaginosa, Rothia sp. THG-N7, Salinibacterium sp. MDT1-9-1, Selenomonas genomosp. P5, Shinella sp. DR33, Skermanella aerolata, Solanum lycopersicum, Solirubrobacter sp. Gsoil 921, Solobacterium moorei, Sphingobacterium sp. HTc4-a, Sphingobium sp. LC341, Sphingomonas aerolata, Sphingomonas anadarae, Sphingomonas mathurensis, Sphingomonas sp. 540, Sphingomonas sp. DS-3PS-11, Sphingomonas sp. HEXBA01, Sphingomonas sp. KOPRI 25661, Sphingomonas sp. URHDoo57, Staphylococcus aureus, Staphylococcus epidermidis, Staphylococcus saprophyticus, Staphylococcus sp. 334802, Staphylococcus sp. C-D-MA2, Staphylococcus sp. C9I2, Staphylococcus sp. FXY54, Stenotrophomonas pavanii, Stenotrophomonas sp. C-S-TSA3, Stenotrophomonas sp. I_35-G5PA9A1, Stenotrophomonas sp. I_63-LFP1A9B1, Stenotrophomonas sp. KITS-1, Stenotrophomonas sp. No17, Stomatobaculum longum, Streptococcus gordonii, Streptococcus parasanguinis, Streptococcus peroris, Streptococcus sobrinus, Streptococcus sp. 11aTha1, Streptococcus sp. BS35a, Streptococcus sp. oral taxon G59, Streptococcus thermophilus, Subdoligranulum variabile, Tessaracoccus sp. SL014B-79A, Trueperella bernardiae, Turicella otitidis, Varibaculum sp. CCUG 45114, Veillonella parvula, Veillonella sp. 2011_Oral_VSA_D3, Veillonella sp. CM60, Veillonella sp. MSA12, Veillonella sp. oral taxon 780, Acidothermus, Acidovorax, Acinetobacter, Actinobacillus, Actinobaculum, Actinomyces, Actinomycetospora, Aerococcus, Aeromonas, Aerosphaera, Aggregatibacter, Akkermansia, Alistipes, Alloprevotella, Amnibacterium, Anaerobacillus, Anaerococcus, Anaerostipes, Anaerotruncus, Arcanobacterium, Aurantimonas, Azospira, Bacillus, Bacteroides, Bifidobacterium, Blastocatella, Blautia, Bosea, Brachybacterium, Bradyrhizobium, Brevibacterium, Brevundimonas, Bryobacter, Butyricimonas, Campylobacter, Capnocytophaga, Caulobacter, Cellulosimicrobium, Centipeda, Chryseobacterium, Chryseomicrobium, Citrobacter, Clostridium, Collinsella, Comamonas, Corynebacterium, Cutibacterium, Defluviimonas, Deinococeus, Delftia, Dermabacter, Dermacoccus, Dialister, Dietzia, Dolosigranulum, Dorea, Dyadobacter, Elizabethkingia, Enterobacter, Enterococcus, Erysipelatoclostridium, Exiguobacterium, Facklamia, Faecalibacterium, Fastidiosipila, Ferruginibacter, Finegoldia, Flavobacterium, Flavonifractor, Fluviicola, Frigoribacterium, Fusicatenibacter, Fusobacterium, Gaiella, Gallicola, Gardnerella, Gemella, Gemmata, Gemmatimonas, Geobacillus, Globicatella, Granulicatella, Granulicella, Haemophilus, Halomonas, Helcococcus, Herbaspirillum, Hymenobacter, Intestinibacter, Janthinobacterium, Jatrophihabitans, Johnsonella, Klebsiella, Kluyvera, Kocuria, Kurthia, Lachnospira, Lactobacillus, Lactococcus, Leptotrichia, Leucobacter, Leuconostoc, Lysinibacillus, Lysobacter, Malassezia, Marmoricola, Massilia, Meiothermus, Mesorhizobium, Methylobacterium, Microbacterium, Micrococcus, Microlunatus, Morganella, Moryella, Murdochiella, Mycobacterium, Negativicoccus, Neisseria, Nocardioides, Novosphingobium, Nubsella, Ochrobactrum, Odoribacter, Paenibacillus, Pantoea, Parabacteroides, Parasutterella, Parvimonas, Patulibacter, Paucibacter, Pelomonas, Peptoclostridium, Peptoniphilus, Peptostreptococcus, Phascolarctobacterium, Phyllobacterium, Porphyromonas, Prevotella, Propionibacterium, Proteus, Pseudobutyrivibrio, Pseudoclavibacter, Pseudolabrys, Pseudomonas, Pseudonocardia, Ralstonia, Raoultella, Rhizobium, Rhodococcus, Rhodoplanes, Roseburia, Roseomonas, Rothia, Rubellimicrobium, Rummeliibacillus, Salinibacterium, Sarcina, Selenomonas, Serratia, Shewanella, Shuttleworthia, Skermanella, Solanum, Solirubrobacter, Solobacterium, Sphingobacterium, Staphylococcus, Stenotrophomonas, Stomatobaculum, Streptococcus, Streptomyces, Subdoligranulum, Sutterella, Terrisporobacter, Tessaracoccus, Truepera, Trueperella, Turicella, Variovorax, Veillonella, Weissella, Xanthomonas, Zymomonas, 